NIMP| Noi dezvoltări în domeniul materialelor avansate cu potențial aplicativ, în corelare cu provocările societale și domeniile de specializare inteligentă (MAVPA-PROSOCSPIN)

Noi dezvoltări în domeniul materialelor avansate cu potențial aplicativ, în corelare cu provocările societale și domeniile de specializare inteligentă (MAVPA-PROSOCSPIN)

Project Director: Dr. Lucian Pintilie

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PROGRAM NUCLEU

Contractor (denumirea completă şi prescurtată): Institutul Național de Cercetare-Dezvoltare pentru Fizica Materialelor (INCDFM)
Cod fiscal: 9068280
Denumirea Program Nucleu și acronim: Noi dezvoltări în domeniul materialelor avansate cu potențial aplicativ, în corelare cu provocările societale și domeniile de specializare inteligentă (MAVPA-PROSOCSPIN)
Durata de implementare a Programului Nucleu: 01.01.2023 – 31.12.2026
Domeniul principal și domeniile secundare (maxim 2) de specializare inteligentă/ politici publice cărora li se adresează Programul Nucleu:

Conform SNCISI 2022-2027, aprobată prin HG 933/2022, Programul Nucleu se adresează următoarelor domenii de specializare inteligentă:

La nivel Național
- Domeniu principal: Domeniul 5-Materiale funcționale avansate (vezi OG2 din SNCISI)
- Domenii secundare: Domeniul 7-Sănătate-prevenție, diagnostic și tratament avansat; Domeniul 6-Mediu și eco-nanotehnologii; Domeniul 3-Energie si mobilitate
La nivel regional (regiunea București-Ilfov)
- Domeniu principal: Materiale avansate
- Domenii secundare: Sănătate; Sisteme și componente inteligente

Valoarea totală solicitată pentru implementarea Programului Nucleu în conformitate cu algoritm metodologie: 275,593,520 lei

Director de program: Dr. Lucian Pintilie

Anexa 1-Program Nucleu - Structura si schema de realizare INCDFM

PC1_final conform Anexa 1-1 din HG 1405 din 2022

PC2 final conform Anexa 1-1 din HG 1405 pe 2022

PC3 final conform Anexa 1-1 din HG1405 pe 2022

PC4 final conform Anexa 1-1 din HG1405 pe 2022

Premiile L'Oreal 2024-2025

Dr. Georgia Andra Boni, CD III in INCDFM a obtinute unul din cele 10 premii decernate pentru 2024 si 2025.

Pentru interviuri, pezentari publice, evenimente organizate de NIMP, se pot urmari postarile de pe canalul de Youtube al INCDFM (vezi https://www.youtube.com/@nationalinstituteofmateria526), sau de pe conturile de Facebook (vezi https://www.facebook.com/NationalInstituteOfMaterialsPhysics) si LinkedIn (vezi https://www.linkedin.com/company/incdfm/mycompany/coworkercontent/).

Sinteza rezultate practice deosebite obtinute in anul 2024:

2023

Descrierea activităţilor (utilizând şi informaţiile din rapoartele de fază, Anexa nr. 10)

Mai jos este prezentata schema de realizare pentru anul 2023. Detalii privind activitatile desfasurate si rezultatele obtinute sunt prezentate la punctul 4 din Raport.

Nr. crt.	Cod proiect	Denumirea proiectului /	Valoare proiect /	Termen de încheiere al fazei	Rezultate estimate
Nr. crt.	Cod proiect	Nr. şi denumire faze de execuţie	Valoare fază de execuţie (lei)	Termen de încheiere al fazei	Rezultate estimate
		ANUL 2023
	PN23080101	Materiale avansate nanostructurate și straturi subțiri pentru aplicații în sanatate, bio-senzori, combaterea poluării și a schimbărilor climatice	11,281,798.00
1	Faza 1A	F 1.1.2.Optimizarea procesului de fabricare a straturilor de grafenă Responsabil:Elena Matei	1,128,180.00	14.07.2023	Obținerea de straturi de grafenă cu grosime bine controlată și cu conținut de defecte cât mai mic. Indicatori: 2 studii; 1 metodă;
2	Faza 1B	F 1.1.2.Optimizarea procesului de fabricare a straturilor de grafenă Responsabil:Elena Matei	1,128,180.00	28.12.2023	Obținerea de straturi de grafenă cu grosime bine controlată și cu conținut de defecte cât mai mic. Indicatori: 1 rețetă; 1 lucrare pentru publicare în jurnal ISI.
3	Faza 2A	F 1.2.1. Realizarea unui sistem dinamic de mixare a gazelor (SMG), complet computerizat, dedicat pentru testarea concentrațiilor de acetonă în domeniul medical. Responsabil: A. Stanoiu	1,128,180.00	15.09.2023	i) Realizare unei facilități experimentale (SMG) de testare a senzorilor de acetonă prin simularea în laborator a condițiilor similare expirației umane. Indicatori: i) 1 documentație;
4	Faza 2B	F 1.2.1. Realizarea unui sistem dinamic de mixare a gazelor (SMG), complet computerizat, dedicat pentru testarea concentrațiilor de acetonă în domeniul medical. Responsabil: A. Stanoiu	1,128,180.00	28.12.2023	i) Realizare unei facilități experimentale (SMG) de testare a senzorilor de acetonă prin simularea în laborator a condițiilor similare expirației umane. Indicatori: ii) 1 lucrare pentru publicare în jurnal ISI.
5	Faza 3A	F 1.5.1. Materiale compozite nanoparticulă-gel cu proprietăți fotocatalitice și magnetice pentru aplicații biomedicale. Responsabil:Traian Popescu	1,128,180.00	14.08.2023	i) Obținerea de geluri organice biocompatibile funcționalizate cu nanomateriale fotocatalitice și magnetice. Indicatori: i) 1 studiu; ii) 1 produs
6	Faza 3B	F 1.5.1. Materiale compozite nanoparticulă-gel cu proprietăți fotocatalitice și magnetice pentru aplicații biomedicale. Responsabil:Traian Popescu	1,128,180.00	28.12.2023	i) Obținerea de geluri organice biocompatibile funcționalizate cu nanomateriale fotocatalitice și magnetice. Indicatori: ii) 2 produse; iii) 1 lucrare pentru publicare în jurnal ISI.
7	Faza 4A	F 1.6.1. Prepararea şi testarea multi-parametrică a materialelor sursă pe bază de fosfați de calciu, sticle și ceramici piezoelectrice pe bază de titanat de bariu simple sau dopate cu ioni terapeutici. Identificarea de biomateriale ceramice adecvate fabricării de scaffold-uri. Responsabil:G. Stan, Marius Ciongher	1,128,179.00	14.07.2023	i) Adaptarea tehnologiei ceramice pentru fabricarea materialelor piezoceramice de tip titanat de bariu dopat cu ioni terapeutici în vederea obținerii de elemente active piezoceramice cu aplicații în medicina umană și dentară, dar și, posibil, în industria alimentară, energetică, spațiu, apărare și securitate. Indicatori: i) 1 studiu; ii) 1 tehnologie;
8	Faza 4B	F 1.6.1. Prepararea şi testarea multi-parametrică a materialelor sursă pe bază de fosfați de calciu, sticle și ceramici piezoelectrice pe bază de titanat de bariu simple sau dopate cu ioni terapeutici. Identificarea de biomateriale ceramice adecvate fabricării de scaffold-uri. Responsabil:G. Stan, Marius Ciongher	1,128,180.00	28.12.2023	i) Adaptarea tehnologiei ceramice pentru fabricarea materialelor piezoceramice de tip titanat de bariu dopat cu ioni terapeutici în vederea obținerii de elemente active piezoceramice cu aplicații în medicina umană și dentară, dar și, posibil, în industria alimentară, energetică, spațiu, apărare și securitate. Indicatori: iii) 1 cerere de brevet de invenție; iv) 1 lucrare pentru publicare în jurnal ISI.
9	Faza 5	F 1.11.1. Sinteza și caracterizarea morfo-structurală a nano-sistemului SnO2 - MnxOy în corelare cu potențialul senzitiv pentru gaze cu efect de seră. Responsabil: D. Ghica	2,256,359.00	28.12.2023	i) Sinteza SnO2 - MnxOy cu concentrație variabilă de Mn (0% - 100%) prin co-precipitare și creștere hidrotermală. Caracterizarea morfo-structurală de bază și avansată, la nivel atomic - HRTEM a compușilor sintetizați. ii) Evaluarea proprietăților electrice specifice pentru detecția de gaze cu efect de seră pentru o selecție de compuși. Indicatori: i) 1 rețetă; ii) 1 lucrare pentru publicare în jurnal ISI.
	PN23080202	Noi dezvoltari in domeniul materialelor functionale pentru aplicatii de inalta tehnologie (electronica, optoelectronica, senzoristica)	14,961,175.46
10	Faza 1A	F2.1.1. Sinteza de noi materiale și heterostructuri feroelectrice și multiferoice. Responsabil: C. F. Chirilă, L. Pintilie	1,128,180.00	14.07.2023	Sinteza de straturi subțiri din materiale binare dopate în vederea obținerii de proprietăți feroelectrice; Realizarea de heterostructuri pe bază de straturi feroelectrice; nanocompozite în matrici polimerice și materiale organice feroelectrice; Caracterizare structurală și electrică. Indicatori: 5 obiecte fizice, 1 procedeu de obtinere materiale și structuri, 2 rețete pentru obținere, 2 documentații, 2 studii
11	Faza 1B	F2.1.1. Sinteza de noi materiale și heterostructuri feroelectrice și multiferoice. Responsabil: C. F. Chirilă, L. Pintilie	1,128,180.00	28.12.2023	Sinteza de straturi subțiri din materiale binare dopate în vederea obținerii de proprietăți feroelectrice; Realizarea de heterostructuri pe bază de straturi feroelectrice; nanocompozite în matrici polimerice și materiale organice feroelectrice; Caracterizare structurală și electrică. Indicatori: 10 obiecte fizice, 2 procedee de obtinere materiale și structuri, 1 rețeta pentru obținere, 1 lucrare trimisă spre publicare.
12	Faza 2A	F2.3.1. Proprietăți de transport ale stărilor topologice de dimensionalitate redusă. Responsabil: B. Ostahie	1,128,180.00	15.09.2023	Soluții de modelare pentru proprietățile de transport ale unui izolator topologic de ordin superior (HOTI) și studierea unor tranziții de faze topologice în prezența impurităților. Indicatori: 2 studii, 1 metoda
13	Faza 2B	F2.3.1. Proprietăți de transport ale stărilor topologice de dimensionalitate redusă. Responsabil: B. Ostahie	1,128,180.00	28.12.2023	Soluții de modelare pentru proprietățile de transport ale unui izolator topologic de ordin superior (HOTI) și studierea unor tranziții de faze topologice în prezența impurităților. minim 1 articol trimis spre publicare la jurnale ISI, 1 studii, 1 metoda, 1 produs informatic
14	Faza 3A	F2.5.1. Prepararea și caracterizarea structurală și morfologică de monocristale. Responsabil: C. F. Miclea	1,128,180.00	14.08.2023	Obținerea fluxului pentru creșterea de monocristale. Creșterea de monocristale de înaltă calitate de calcogenati pe baza de fier, in atmosfera controlata. Optimizarea profilului termic de creștere. Caracterizarea morfo-structurala a monocristalelor obținute. Indicatori: 1 plan, 1 procedeu de obținere monocristale, 1 documentație, 2 studii,
15	Faza 3B	F2.5.1. Prepararea și caracterizarea structurală și morfologică de monocristale. Responsabil: C. F. Miclea	1,128,180.00	28.12.2023	Obținerea fluxului pentru creșterea de monocristale. Creșterea de monocristale de înaltă calitate de calcogenati pe baza de fier, in atmosfera controlata. Optimizarea profilului termic de creștere. Caracterizarea morfo-structurala a monocristalelor obținute. Indicatori: 1 procedeu de obținere monocristale, 2 rețete, 5 probe monocristaline, 1 lucrare științifică trimisă spre publicare.
16	Faza 4A	F2.8.1. Aliaje intermetalice cu memoria formei pentru refrigerare magnetică, senzoristică și actuație. Responsabil: M. Sofronie, F. Țolea	1,128,179.00	14.07.2023	Se urmărește controlul cuplajului magneto-structural în aliaje meta-magnetice de tip Heusler Ni2MnSb prin dopaj Cu, Co și Gd, în vederea obținerii unor efecte magnetorezistive, magnetostrictive și magnetocalorice promițătoare aplicațiilor în tehnologii ecologice. Indicatori: 1 plan, 1 metoda, 2 schițe, 4 probe test, 1 rețeta de producere a benzilor cu trei tipuri de substituenți,
17	Faza 4B	F2.8.1. Aliaje intermetalice cu memoria formei pentru refrigerare magnetică, senzoristică și actuație. Responsabil: M. Sofronie, F. Țolea	1,128,180.00	28.12.2023	Se urmărește controlul cuplajului magneto-structural în aliaje meta-magnetice de tip Heusler Ni2MnSb prin dopaj Cu, Co și Gd, în vederea obținerii unor efecte magnetorezistive, magnetostrictive și magnetocalorice promițătoare aplicațiilor în tehnologii ecologice. Indicatori: 1 metoda, 1 schița, 4 probe test, 2 rețete de producere a benzilor cu trei tipuri de substituenți, 1 lucrare stiintifica trimisa spre publicare, 1 cerere brevet depusa
18	Faza 5A	F2.10.1. Obținerea, testarea și caracterizarea de probe test cu proprietăți fotoelectrice optime. Responsabil: A. M. Lepădatu	1,128,179.00	15.09.2023	Obținerea (pulverizare cu magnetron, tratamente RTA) și caracterizarea (structură, morfologie, proprietăți fotoelectrice) probelor test - filme cu NC GeSn stabilizat cu Si în oxizi high-κ fotosensibile în SWIR la RT. Indicatori: parametri tehnologici, 1 procedeu nou de obtinere de filme cu NC GeSn stabilizat cu Si în oxizi high-κ fotosensibile în SWIR la RT, 5 probe test, 10 studii (structură - imagini, proprietăți electrice și fototoelectrice - caracteristici)
19	Faza 5B	F2.10.1. Obținerea, testarea și caracterizarea de probe test cu proprietăți fotoelectrice optime. Responsabil: A. M. Lepădatu	1,128,180.00	28.12.2023	Obținerea (pulverizare cu magnetron, tratamente RTA) și caracterizarea (structură, morfologie, proprietăți fotoelectrice) probelor test - filme cu NC GeSn stabilizat cu Si în oxizi high-κ fotosensibile în SWIR la RT. Indicatori: 10 probe test,10 studii (structură - imagini, proprietăți electrice și fototoelectrice - caracteristici), 1 lucrare trimisă
20	Faza 6	F2.11.1. Simularea teoretică privind caracteristicile optice și electronice ale nanocristalelor de perovskitilor hibrizi de tip organic/anorganic. Sinteza și caracterizarea nanocristalelor pe bază de perovskiți hibrizi. Responsabil:S. Poloșan	2,256,359.00	28.12.2023	(a) Modelări teoretice privind diagrama de benzi energetice, a excitonilor și a densităților de stări electronice în perovskiți cu Sb. (b) Sinteze chimice ale acestor perovskiți. Indicatori: - 2 proceduri de sinteză a perovskiților cu plumb și stibiu - 6 rețete de producere a perovskiților utilizând două tipuri de ioni metalici și trei tipuri de metil amoniu cu iod, clor și brom -1 cerere de brevet sinteză
21	Faza 7	F2.6.1.(partea 1) Studiul potențialului de fixare și a liniei de topire a sistemului de vortexuri în monocristale supraconductoare de CaKFe₄As₄. (A. Crișan)	1,423,018.46	28.12.2023	Ținte: (i) prepararea si investigarea de noi sisteme supraconductoare destinate aplicațiilor practice de putere mare (ii) determinarea curentului critic, a potențialului de fixare și a liniei de topire a sistemului de vortexuri în monocristale de CaKFe4As4 (sistem 1144) Indicatori: 1 sistem 1144 optimizat, 1 lucrare ISI, 1 metodologie investigație
	PN23080303	Noi formule, arhitecturi și soluții pentru surse regenerabile de energie și stocarea energiei sub diverse forme	11,613,189.95
22	Faza 1A	F3.2.1. Realizarea tehnologiei de producere, elaborarea rețetelor de sinteză și caracterizarea de nanoparticule Cu2Zn1-xFexSnS4. Obținere de pelicule și celule test fotovoltaice. Responsabil: A. Galca	1,128,180.00	14.07.2023	Implementarea unei tehnologii de producere nanoparticule cristaline fără Cd - Cu2Zn(Fe)SnS4 Indicatori: 1 tehnologie de producere nanoparticule și coloizi; 1 rețetă de obținere nanoparticule kesterită/stanită
23	Faza 1B	F3.2.1. Realizarea tehnologiei de producere, elaborarea rețetelor de sinteză și caracterizarea de nanoparticule Cu2Zn1-xFexSnS4. Obținere de pelicule și celule test fotovoltaice. Responsabil: A. Galca	1,128,180.00	28.12.2023	Implementarea unei tehnologii de producere nanoparticule cristaline fără Cd - Cu2Zn(Fe)SnS4 Indicatori: 1 lucrare științifică
24	Faza 2A	F3.9.1. Nanomateriale stocatoare de hidrogen cu conținut ridicat de H2 si proprietăți stocatoare optimizate bazate pe amestecuri de hidruri complexe. Responsabil:P. Palade	1,128,180.00	15.09.2023	Obținerea de noi materiale stocatoare de hidrogen pe baza de amestecuri de hidruri complexe de tipul LiH-Mg(BH4)2-Ca(BH4)2, LiBH4-NaZn(BH4)3 sau LiBH4-NaZn2(BH4), MgH2-NaBH4, LiNH2-MgH2-M(BH4)n (M=Na, Ca, etc.) Indicatori: 1 reteta; 1 procedeu
25	Faza 2B	F3.9.1. Nanomateriale stocatoare de hidrogen cu conținut ridicat de H2 si proprietăți stocatoare optimizate bazate pe amestecuri de hidruri complexe. Responsabil:P. Palade	1,128,180.00	28.12.2023	Obținerea de noi materiale stocatoare de hidrogen pe baza de amestecuri de hidruri complexe de tipul LiH-Mg(BH4)2-Ca(BH4)2, LiBH4-NaZn(BH4)3 sau LiBH4-NaZn2(BH4), MgH2-NaBH4, LiNH2-MgH2-M(BH4)n (M=Na, Ca, etc.) Indicatori: 2 retete; 1 lucrare trimisa spre publicare
26	Faza 3A	F3.8.1 Sinteza si proprietatile fizico-electrochimice ale compozitelor de tip polimer conductor/ grafena . Responsabil:M. Vaduva	1,128,180.00	14.08.2023	i) sinteza compozitului poli(o-toluidina)/oxid de grafena redus si evidentierea proprietatilor optice, structurale si electrochimice; si ii) evaluarea potentialului acestor compozite pentru aplicatii in domeniul supercapacitorilor. Indicatori: 1 documentație, 1 studiu, 1 schema de reactii,
27	Faza 3B	F3.8.1 Sinteza si proprietatile fizico-electrochimice ale compozitelor de tip polimer conductor/ grafena . Responsabil:M. Vaduva	1,128,180.00	28.12.2023	i) sinteza compozitului poli(o-toluidina)/oxid de grafena redus si evidentierea proprietatilor optice, structurale si electrochimice; si ii) evaluarea potentialului acestor compozite pentru aplicatii in domeniul supercapacitorilor. Indicatori: 1 reteta de sinteza, 1 lucrare trimisa spre publicare la o revistă ISI
28	Faza 4	F3.8.2 (partea 1) Sinteza si caracterizarea heterostructurilor WS2/grafena. Responsabil:F. Sava	331,390.95	28.12.2023	Sinteza heterostructurilor WS2/grafenă prin depunerea fizică din starea de vapori, urmată de sulfurizare și caracterizarea proprietăților fizico-chimice ale acestora. Indicatori: 1 documentație, 1 studiu
29	Faza 5A	F3.1.1.Optimizare proprietăți straturi ETM compact/mezoporos pe bază de TiO2, SnO2 și r-GO depuse prin metode de arie mare. Responsabil: T. Tite	1,128,180.00	15.09.2023	Elaborarea procedurilor optime de depunere pe arii mari și a rețetelor de obținere a ETM compact si mezoporos pe bază de TiO2, SnO2 și r-GO Indicatori: 2 studii 2 metoda/procedeu
30	Faza 5B	F3.1.1.Optimizare proprietăți straturi ETM compact/mezoporos pe bază de TiO2, SnO2 și r-GO depuse prin metode de arie mare. Responsabil: T. Tite	1,128,180.00	28.12.2023	Elaborarea procedurilor optime de depunere pe arii mari și a rețetelor de obținere a ETM compact si mezoporos pe bază de TiO2, SnO2 și r-GO Indicatori: 1 studiu 1 lucrare trimisă 9 celule solare
31	Faza 6	F3.5.1.Investigarea compozitelor de tipul MXene-semiconductori pentru producerea de H2 prin reacția de splitare fotocatalitică a apei. Responsabil: S. Neatu	2,256,359.00	28.12.2023	Designul și optimizarea metodelor de sinteză a compozitelor de tipul MXene-semiconductori; Caracterizarea exhaustivă a compozitelor sintetizate și determinarea proprietăților morfologice și structurale; Atingerea unor valori ridicate ale AQE pentru reacția de producere a hidrogenului prin procesul de splitare a apei; Evidențierea mecanismului de reacție pe baza corelațiilor dintre caracteristicile compozitelor dezvoltate și proprietățile fotocatalitice ale acestora. Indicatori: 1 procedeu; 1 lucrare trimisa ; 10 probe, 1 cerere de brevet
	PN23080404	CIFRA-Sinergii intre cercetarea avansata in domeniul Fizicii si promovarea Fizicii in societate	603,795.00
32	Faza 1A	Instalarea unui kit educational pentru studiul corelatiilor cuantice (entanglement). Responsabil: V. Moldoveanu	301,897.00	14.07.2023	Instalarea unui demonstrator de entanglement la sediul Centrului. Organizarea de seminarii si sesiuni de laborator cu studenti si asistenti de cercetare. Indicatori: testare montaj experimental, 2 studii, 1 metoda.
33	Faza 1B	Instalarea unui kit educational pentru studiul corelatiilor cuantice (entanglement). Responsabil: V. Moldoveanu	301,898.00	28.12.2023	Instalarea unui demonstrator de entanglement la sediul Centrului. Organizarea de seminarii si sesiuni de laborator cu studenti si asistenti de cercetare. Indicatori: 1 studiu, 1 metoda, tutorial disponibil online.
		TOTAL 2023	38,459,958.41

Proiecte contractate:

Cod

obiectiv

Nr. proiecte contractate

Nr. proiecte finalizate

Anul

2023

1. PN 23 080101, PN 23 080202, PN 23 080303, PN 23 080404

Total:

Situația centralizată a cheltuielilor privind programul-nucleu :

	Cheltuieli (lei)
I. Cheltuieli directe	18,535,437.95
1. Cheltuieli de personal	16,455,019.00
2. Cheltuieli materiale şi servicii	2,080,418.95
II. Cheltuieli Indirecte: Regia	15,576,610.46
III. Achiziții / Dotări independente	4,347,910.00
TOTAL ( I+II+III)	38,459,958.41

Analiza stadiului de atingere a obiectivelor programului

Mai jos sunt prezentati indicatorii asumati in propunerea de proiect, valori de atins la finalizarea Programului Nucleu in anul 2026:

Indicatorii de rezultat ai programului Nucleu, conform HG 1188/2022 de aprobare a structurii PN IV, sunt următorii, cu țintele numerice previzionate a fi atinse la final, în 2026:

Tabel 3.1

Denumire indicator	Asumat 2026	Realizat 2023	Grad de realizare (%)
număr de soluții propuse la nevoile societale de către institutele naționale de cercetare dezvoltare;	minim 15	3 (biomateriale ceramice adecvate fabricării de scaffold-uri. Pentru implanturi osoase; Nanomateriale stocatoare de hidrogen cu conținut ridicat de H2; compozite de tipul MXene-semiconductori pentru producerea de H2 prin reacția de splitare fotocatalitică a apei).	20
număr de cercetători sprijiniți;	minim 100	35 ENI (echivalent norma intreaga)	35
număr de proiecte de cercetare-dezvoltare finanțate;	minim 40	8 proiecte la care a inceput finantarea in 2023 (4 PNRR; 2 IFA-CERN; 1 EURATOM; 1 Europa Digitala) Au fost depuse 109 propuneri de proiecte (31 internationale si 78 nationale)	20
număr de cereri de brevete/brevete depuse.	Minim 40	14 (Tabelul 4.3.1; 11 OSIM; 3 EPO)	35

Alți indicatori, conform OG57/2002:

Tabel 3.2

Denumire indicator	Asumat 2026 per total Program Nucleu	Realizat 2023	Grad de realizare (%)
Lucrari publicate sau trimise la publicat	Minim 126 publicate	25 publicate si 39 trimise sau acceptate pentru publicat	19.8
Brevete sau cereri de brevet	50	14 (Tabelul 4.3.1; 11 OSIM; 3 EPO)	28
Produse/esantioane/obiecte fizice/materiale	401	163	40.6
Demonstratoare	3	0	0
Tehnologii	41	7	17.1
Metode/procedee/retete	192	67	34.4
Studii	193	93	48.2
Documentatii	82	21	25.6
Formule	432	187	43.3
Scheme	132	35	26.5
Servicii	2	1	50
Planuri	4	1	25
Produse informatice/coduri numerice	18	6	33.3
Tutoriale	4	1	25

Obiectivele propuse pentru 2023 au fost realizate integral (detalii se pot gasi in fisierele anexa 10-rapoartele de activitate ale fazelor predate in 2023, toate sunt disponibile la MCID sau la INCDFM).

Se apreciaza ca indicatorii asumati in propunere au fost indepliniti in proportie de 25 % (in medie). Unii indicatori (a se vedea Tabelele 3.1 si 3.2) sunt peste medie, intrucat la inceputul proiectelor se fac mai multe studii, documentatii, probe/esantioane/material/obiecte, se testeaza mai multe metode/procedee/retete/formule de material, in timp ce alti indicatori sunt un pic sub medie, dar acesti indicatori sunt legati de un stadiu mai avansat de implementare si executie a temelor de cercetare din proiectele componente, cu acumulae de rezultate, asamblarea acestor in lucrari si cereri de brevet, sau transformarea lor in produse, tehnologii, servicii, produse informatice, etc.

Evolutia stadiului de indeplinire a indicatorilor va fi monitorizata annual, dar evolutia din primul an arata ca toti indicatorii vor fi indepliniti pana la finalul Pogramului Nucleu, unii dintre ei poate chiar usor depasiti.

Prezentarea rezultatelor:

Stadiul de implementare al proiectelor componente

Proiect component	Tipul rezultatului estimat	Stadiul realizării proiectului 2023
1.	40 lucrări pentru publicare în jurnale ISI; 18 cereri de brevet de invenție; 25 produse/esantioane/obiecte fizice/materiale 11 tehnologii 54 metode/retete/procedee 46 studii; 12 documentații; 18 scheme; 35 formule2 servicii	20 lucrări pentru publicare în jurnale ISI (50.0 %); 4 cereri de brevet de invenție (22.2 %); 8 produse/esantioane/obiecte fizice/materiale (32.0%) 2 tehnologii (18.2%) 11 metode/retete/procedee (20.4%) 21 studii (45.7); 4 documentații (33.3%); 3 scheme (16.7%); 5 formule (14.3%)1 servicii (50.0%)
2.	46 articole trimise 19 cereri de brevet 216 produse/esantioane/obiecte fizice/materiale 14 tehnologii 83 metode/retete/procedee 105 studii 44 documentații 57 scheme 385 formule 4 planuri 16 produse informatice	25 articole trimise (54 %) 3 cereri de brevet (16 %) 107 obiecte (49.5 %) 3 tehnologii (21 %) 11 procedee, 26 rețete, 11 metode, total 48 (58 %) 54 studii (51.4 %) 11 documentații (25 %) 26 scheme (46 %) 182 formule (47.3 %) 1 plan (25 %) 6 produse informatice (37.5 %)
3.	37 lucrări pentru publicare în jurnal ISI; 13 cereri de brevet de invenție; 160 produse/esantioane/obiecte fizice/materiale; 16 tehnologii 41 metode/retete/procedee 33 studii; 26 documentații; 57 scheme; 12 formule; 2 demostratoare	15 articole trimise (40,5 %) 4 cereri de brevete (30,7%) 48 produse/esantioane/obiecte fizice/materiale (30%) 2 tehnologii (12,5 %) 7 metode/retete/procedee (17 %) 15 studii (45.4%) 5,5 documentatii (21, 2 %) 6 Scheme de reactie (10,5 %) 0 formule (0%) 0 demonstratoare (0%)
4.	3 lucrari trimise 14 metode, 9 studii, 4 tutoriale disponibile online; 2 coduri numeric 1 demonstrator;	1 lucrare acceptata la Phys.Rev.C 22 noiembrie 2023); 3 lucrari trimise si acceptate pt Proceedings conferinta MEDEX’23, Praga 4-8 sept. 2023; va apare in AIP in 2024. 1 metoda (7.14%) 3 studii (30%) 1 tutorial (25%)

anexa_11_raport_anual_activitate-2023

2024

Schema de realizare pe anul 2024. Detalii despre rezultatele obtinute pot fi gasite in raportul anul pe 2024.

Nr. crt.	Cod proiect	Denumirea proiectului /	Valoare proiect /	Termen de încheiere al fazei	Rezultate estimate
Nr. crt.	Cod proiect	Nr. şi denumire faze de execuţie	Valoare fază de execuţie (lei)	Termen de încheiere al fazei	Rezultate estimate
	PN23080101	Materiale avansate nanostructurate și straturi subțiri pentru aplicații în sanatate, bio-senzori, combaterea poluării și a schimbărilor climatice	13,538,156.00
1	Faza 1A	F 1.1.3. Optimizarea procesului de transfer al grafenei de pe substrat metalic catalizator pe sistemul de electrozi Dr.Elena Matei	1,128,180.00	10.06.2024	i) Fabricarea unor electrozi metalici interdigitați utilizând fotolitografia și tehnici de depunere de filme subțiri; ii) Optimizarea transferului grafenei de pe substratul metalic pe substratul prevăzut cu electrozi fabricați prin fotolitografie. Indicatori: i) 1 studiu; ii) 1 metodă;
2	Faza 1B	F 1.1.3. Optimizarea procesului de transfer al grafenei de pe substrat metalic catalizator pe sistemul de electrozi Dr.Elena Matei	1,128,180.00	08.11.2024	i) Fabricarea unor electrozi metalici interdigitați utilizând fotolitografia și tehnici de depunere de filme subțiri; ii) Optimizarea transferului grafenei de pe substratul metalic pe substratul prevăzut cu electrozi fabricați prin fotolitografie. Indicatori: i) 1 studiu; iii) 1 rețetă; iv) 1 lucrare pentru publicare în jurnal ISI.
3	Faza 2A	F 1.3.1. Dezvoltarea unui echipament modern pentru electrofilare cu control ridicat al parametrilor de operare (colector, distanța și tensiune electrică, temperatura de proces, umiditate, compoziție atmosferă de lucru) Dr.Alex Evanghelidis	1,128,180.00	10.06.2024	i) Crearea unor instrumente electronice și electromecanice modulare, interconectabile, pentru controlul automatizat al parametrilor procesului de electrofilare pentru o gamă largă de materiale de bază și mai multe variante de morfologie finală. Indicatori: i) 1 studiu; ii) 1 tehnologie; ;
4	Faza 2B	F 1.3.1. Dezvoltarea unui echipament modern pentru electrofilare cu control ridicat al parametrilor de operare (colector, distanță și tensiune electrică, temperatura de proces, umiditate, compoziție atmosferă de lucru) Dr.Alex Evanghelidis	1,128,179.00	10.10.2024	i) Crearea unor instrumente electronice și electromecanice modulare, interconectabile, pentru controlul automatizat al parametrilor procesului de electrofilare pentru o gamă largă de materiale de bază și mai multe variante de morfologie finală. Indicatori: iii)1 serviciu iv) 1 cerere de brevet de invenție.
5	Faza 3A	F 1.5.2. Nanocompozite magnetice termosensibile pentru aplicații biomedicale și tehnologice Dr.Traian Popescu	1,128,180.00	10.07.2024	i) Obținerea de sisteme hibride de tip nanoparticulă magnetică - polimer termosensibil activabile prin câmpuri magnetice variabile. Indicatori:
6	Faza 3B	F 1.5.2. Nanocompozite magnetice termosensibile pentru aplicații biomedicale și tehnologice Dr.Traian Popescu	1,128,180.00	08.11.2024	i) Obținerea de sisteme hibride de tip nanoparticulă magnetică - polimer termosensibil activabile prin câmpuri magnetice variabile. i) 1 lucrare pentru publicare în jurnal ISI.
7	Faza 4A	F 1.10.1. Adsorbții și reacții moleculare pe suprafețe feroelectrice fără plumb Dr.Cristian Mihail Teodorescu	1,128,180.00	10.06.2024	i) Studiul suprafețelor atomic curate feroelectrice de BaTiO3 și LiNbO3 a adsorbțiilor și reacțiilor moleculare (CO, H2O, CO2) pe acestea. Indicatori: i) 1 documentație; ii) 3 studii; iv) 3 scheme; v) 4 rețete; vi) 5 formule;
8	Faza 4B	F 1.10.1. Adsorbții și reacții moleculare pe suprafețe feroelectrice fără plumb Dr.Cristian Mihail Teodorescu	1,128,179.00	10.10.2024	i) Studiul suprafețelor atomic curate feroelectrice de BaTiO3 și LiNbO3 a adsorbțiilor și reacțiilor moleculare (CO, H2O, CO2) pe acestea. Indicatori: i) 2 documentații; ii) 3 studii; iii) 2 lucrări trimise la publicare; iv) 3 scheme; v) 4 rețete; vi) 5 formule; vii) 3 metode.
9	Faza 5 A	F.1.11.2. Investigarea la scală atomică a nano-sistemului SnO₂ - Mn_xO_y în corelare cu potențialul senzitiv pentru gaze cu efect de seră Dr.D. Ghica	1,128,180.00	10.09.2024	i) Caracterizare complexă la scală atomică cu metode avansate a concentrației, valenței și distribuției spațiale de dopant (EELS / XPS, STEM, RES în multifrecvență și temperatură variabilă); ii) Corelare cu proprietățile electrice specifice pentru detecția de gaze cu efect de seră pentru o selecție de compuși.
10	Faza 5 B	F.1.11.2. Investigarea la scală atomică a nano-sistemului SnO2 - MnxOy în corelare cu potențialul senzitiv pentru gaze cu efect de seră Dr.D. Ghica	1,128,179.00	22.11.2024	i) Caracterizare complexă la scală atomică cu metode avansate a concentrației, valenței și distribuției spațiale de dopant (EELS / XPS, STEM, RES în multifrecvență și temperatură variabilă); ii) Corelare cu proprietățile electrice specifice pentru detecția de gaze cu efect de seră pentru o selecție de compuși. Indicatori: i) 1 lucrare pentru publicare în jurnal ISI; ii) 1 cerere de brevet de invenție.
11	Faza 6	F 1.8.1. Structuri spongioase de PDMS decorat cu TiO₂ cu aplicații fotocatalitice. Dr.M.Enculescu	2,256,359	22.11.2024	i) Prepararea de structuri spongioase de polidimetilsulfoxid decorat cu nanostructuri de dioxid de titan cu proprietăți de purificare a apelor poluate. Indicatori: i) 1 lucrare pentru publicare în jurnal ISI; ii) 1 rețetă: iii) 1 cerere de brevet de invenție.
	PN23080202	Noi dezvoltări în domeniul materialelor funcționale pentru aplicații de înaltă tehnologie (electronică, optoelectronică, senzoristică)	13,538,158.00
12	Faza 1A	F2.1.2. Optimizarea proprietăților funcționale ale structurilor feroelectrice și multiferoice prin inginerie de interfețe, defecte, dopaje Dr.C. F. Chirilă, Dr.L. Pintilie	1,128,180.00	10.07.2024	Maximizarea proprietăților funcționale (fero, piro, piezo) prin modificări ale volumelor, interfețelor, dopajelor și combinarea de materiale cu proprietăți diferite. Indicatori: 2 studii, 5 obiecte, 1 metoda
13	Faza 1B	F2.1.2. Optimizarea proprietăților funcționale ale structurilor feroelectrice și multiferoice prin inginerie de interfețe, defecte, dopaje Dr.C. F. Chirilă, Dr.L. Pintilie	1,128,180.00	08.11.2024	Maximizarea proprietăților funcționale (fero, piro, piezo) prin modificări ale volumelor, interfețelor, dopajelor și combinarea de materiale cu proprietăți diferite. Indicatori: 2 studii, 5 obiecte, 1 metoda, 1 lucrare trimisă la publicare.
14	Faza 2A	F2.3.3. Efectele cuplajului spin-vibrație în materiale cu centri de culoare. Dr.V. Moldoveanu, Dr.R. Dragomir	1,128,180.00	10.09.2024	Analiza și modelarea dinamicii centrilor de culoare în prezența cuplajului spin-vibratie, metode de manipulare a centrului de culoare prin variații controlate ale cuplajului spin-vibratie. Predicții asupra modelelor experimentale. Indicatori: 1 studiu, 1 metoda
15	Faza 2B	F2.3.3. Efectele cuplajului spin-vibrație în materiale cu centri de culoare. Dr.V. Moldoveanu, Dr.R. Dragomir	1,128,180.00	22.11.2024	Analiza și modelarea dinamicii centrilor de culoare în prezența cuplajului spin-vibratie, metode de manipulare a centrului de culoare prin variații controlate ale cuplajului spin-vibratie. Predicții asupra modelelor experimentale. Indicatori: minim 1 articol trimis spre publicare la jurnale ISI, 2 studii, 1 metoda, 1 produs informatic
16	Faza 3	F2.4.1. Obținerea prin fabricare aditivă de materiale dielectrice cu pierderi reduse și de compozite cu derivă termică controlată. Dr.G. Banciu, Dr.L. Nedelcu (partea 1)	859,072.36	10.09.2024	(1) Studii morfo-structurale și reologice pentru obținerea de paste ceramice din materiale dielectrice cu pierderi reduse; (2) Materiale dielectrice fabricate aditiv. Indicatori: 1 documentație, 1 studii, 1 lucrare trimisă la publicare, 2 rețete, 5 formule, 5-10 obiecte fizice, 1 procedeu.
17	Faza 3	F2.4.1. (partea 2) Obținerea prin fabricare aditivă de materiale dielectrice cu pierderi reduse și de compozite cu derivă termică controlată. Dr.G. Banciu, Dr.L. Nedelcu	1,397,286.64	22.11.2024	(1) Studii morfo-structurale și reologice pentru obținerea de paste ceramice din materiale dielectrice cu pierderi reduse; (2) Studiul compozitelor dielectrice fabricate din amestecuri de polimeri și pulberi feroelectrice Ba1-xSrxTiO3; (3) Materiale și compozite dielectrice fabricate aditiv. Indicatori: 1 documentație, 2 studii, 1 lucrare trimisă la publicare, 2 rețete, 5 formule, 5 -10 obiecte fizice, 1 procedeu.
18	Faza 4A	F2.5.2. Caracterizarea sistemului prin măsurători de rezistivitate, căldură specifică și magnetizare. Creșterea și caracterizarea filmelor subțiri de diverse grosimi. Dr.C. F. Miclea	1,128,180.00	10.09.2024	Caracterizarea probelor bulk prin măsurători de rezistivitate, căldură specifică și magnetizare în funcție de temperatură și câmp magnetic. Sinteza de straturi subțiri. Caracterizare structurală și electrică a straturilor subțiri. Indicatori: 1 plan, 1 documentație, 2 studii pentru probele bulk, 1 studiu asupra proprietăților filmelor, 1 tehnologie de preparare filme subțiri; 2 filme subțiri de diferite grosimi
19	Faza 4B	F2.5.2. Caracterizarea sistemului prin măsurători de rezistivitate, căldură specifică și magnetizare. Creșterea și caracterizarea filmelor subțiri de diverse grosimi. Dr.C. F. Miclea	1,128,180.00	22.11.2024	Caracterizarea probelor bulk prin măsurători de rezistivitate, căldură specifică și magnetizare în funcție de temperatură și câmp magnetic. Sinteza de straturi subțiri. Caracterizare structurală și electrică a straturilor subțiri. Indicatori: 2 studii pentru probele bulk, 1 studiu asupra proprietăților filmelor, 1- tehnologie de preparare filme subțiri; 3 filme subțiri de diferite grosimi, 1 cerere de brevet vizând obținerea filmelor subțiri, o lucrare științifică trimisă spre publicare.
20	Faza 5A	F2.9.1. Interfete high k dielectric/GaAs. Dr.C. C. Negrilă	1,128,180.00	10.06.2024	Obținerea și caracterizarea unor interfețe de tip high k dielectric/GaAs Indicatori: 2 documentații, 3 studii, 1 schemă, 1 metodă, 1 obiect fizic (probe)
21	Faza 5B	F2.9.1. Interfețe high k dielectric/GaAs. Dr.C. C. Negrilă	1,128,179.00	10.10.2024	Obținerea și caracterizarea unor interfețe de tip high k dielectric/GaAs Indicatori: 1 documentație, 1 lucrare trimisă la publicare, 2 scheme, 2 metode, 2 obiecte fizice (probe)
22	Faza 6	F2.2.1. Studii fundamentale teoretice și experimentale privind sisteme feroice și multiferoice Dr.C. M. Teodorescu	2,256,360	22.11.2024	(1) Fundamentarea completă a teoriei feromagnetismului de bandă; (2) Fundamentarea teoretică a domeniilor feroelectrice; (3) Sinteza de sisteme multiferoice cu cuplaj electronic între substratul feroelectric și stratul magnetic. Indicatori: 3 documentații, 3 studii, 3 lucrări, 3 produse informatice, 100–150 formule, 1 rețetă, 6 scheme, 3 obiecte fizice (probe).
	PN23080303	Noi formule, arhitecturi și soluții pentru surse regenerabile de energie și stocarea energiei sub diverse forme	11,577,431.69
23	Faza 1A	F3.2.3 Sinteză și caracterizare de nanomateriale carbonice fluorescente (NCF). Dr. A. Bărăgău	1,128,180.00	10.07.2024	(1) Studiu aprofundat de literatură urmărind progresul recent din domeniu sintezei de sisteme hibride de tip [ion metalic-NCF]. (2) Studierea proprietăților structurale, de compoziție și optice ale nanocompozitelor sintetizate. (3) Evaluare rezultatelor obținute și includerea lor într-o lucrare științifică de tip short comminication. Indicatori: 2 documentații, 3 studii, 6 formule, 10 scheme 5–10 obiecte fizice
24	Faza 1B	F3.2.3 Sinteză și caracterizare de nanomateriale carbonice fluorescente (NCF). Dr. A. Bărăgău	1,128,180.00	08.11.2024	(1) Studiu aprofundat de literatură urmărind progresul recent din domeniu sintezei de sisteme hibride de tip [ion metalic-NCF]. (2) Studierea proprietăților structurale, de compoziție și optice ale nanocompozitelor sintetizate. (3) Evaluare rezultatelor obținute și includerea lor într-o lucrare științifică de tip short comminication. Indicatori: 1 lucrare trimisă, 6 formule, 10 scheme 5–10 obiecte fizice, 2-3 tehnologii și/sau metode
25	Faza 2A	F3.4.2. Dezvoltarea unor compozite pe baza de aliaje half-Heusler si HEA având conductibilități termice reduse prin tehnici de nanostructurare. Dr.A. Galatanu	1,128,180.00	09.08.2024	Obținerea de compozite nano-structurate pe bază de aliaje half-Heusler și HEA Indicatori: 1 studiu, materiale (cel puțin 1 pereche p+n)
26	Faza 2B	F3.4.2. Dezvoltarea unor compozite pe bază de aliaje half-Heusler și HEA având conductibilități termice reduse prin tehnici de nanostructurare. Dr.A. Galatanu	1,128,180.00	22.11.2024	Obținerea de compozite nano-structurate pe bază de aliaje half-Heusler și HEA Indicatori: 1 lucrare, materiale (cel puțin 1 pereche p+n)
27	Faza 3	F3.6.2.(partea 1) Studii microscopice și spectroscopice asupra proceselor fizico-chimice la interfețele electrod-electrolit. Dr.C. Ghica și D. Ghica	901,231.65	10.09.2024	Determinarea mecanismelor fizico-chimice la scară nanometrică ce limitează proprietățile electrochimice ale materialelor sintetizate. Indicatori: 1 procedeu de preparare FIB; 1 studiu asupra proceselor de interfață electrod-electrolit;
28	Faza 3	F3.6.2.(partea 2) Studii microscopice și spectroscopice asupra proceselor fizico-chimice la interfețele electrod-electrolit. Dr.C. Ghica și D. Ghica	1,355,127.35	10.10.2024	Determinarea mecanismelor fizico-chimice la scară nanometrică ce limitează proprietățile electrochimice ale materialelor sintetizate. Indicatori: 1 procedeu de preparare FIB; 1 studiu asupra proceselor de interfață electrod-electrolit;1 manuscris trimis.
29	Faza 4	F3.8.2(partea 2) Sinteza și caracterizarea heterostructurilor WS₂/grafenă. Dr.F. Sava	1,924,969.05	22.11.2024	Sinteza heterostructurilor WS2/grafenă prin depunerea fizică din starea de vapori, urmată de sulfurizare și caracterizarea proprietăților fizico-chimice ale acestora. Indicatori: 1 documentație, 1 studiu, 1 lucrare trimisa spre publicare la o revistă ISI
30	Faza 5 A	F3.8.3. Obținerea directă a heterostructurilor MoS₂/grafenă pe suprafețe mari. Dr.I.D. Șimandan	1,128,180.00	09.08.2024	Obținerea heterostructurilor MoS2/grafenă pe suprafete mari direct din procesul de depunere folosind pulverizarea catodică cu magnetron Indicatori: 1 documentație
31	Faza 5 B	F3.8.3. Obținerea directă a heterostructurilor MoS2/grafenă pe suprafețe mari. Dr.I.D. Șimandan	1,128,180.00	22.11.2024	Obținerea heterostructurilor MoS2/grafenă pe suprafețe mari direct din procesul de depunere folosind pulverizarea catodică cu magnetron Indicatori: 1 lucrare trimisă spre publicare la o revistă ISI
32	Faza 6	F3.3.2.(partea 1) Straturi din materiale 2D pe bază de dicalcogenuri ale metalelor de tranziție și/sau mixte cu donori polimerici și noi acceptori din grafenă funcționalizată cu polimeri conductori (RGO-POT). Depunere și caracterizare optică, structurală, morfologică și electrică. Dr. Marcela Socol	627,023.64	22.11.2024	i) depunere de straturi din material 2D pe bază de dicalcogenide ale metalelor de tranziție - caracterizare optică, structurală, morfologică și electrică; Indicatori: 1 documentație, 1 studiu
	PN23080404	CIFRA - Sinergii între cercetarea avansată în domeniul Fizicii și promovarea Fizicii în societate	603,795.00
33	Faza 1 A	Tutorial dedicat simulărilor cuantice și limbajelor de programare cuantică (partea 1) Dr.Mugurel Țolea, Dr.Valeriu Moldoveanu	252,156.00	10.06.2024	Redactarea unui tutorial dedicat modelării unor sisteme fizice și a dinamicii acestora cu ajutorul simulatoarelor de circuite cuantice. Indicatori: 1 studiu, 2 metode
34	Faza 1 B	Tutorial dedicat simulărilor cuantice și limbajelor de programare cuantică (partea 1) Dr.Mugurel Țolea, Dr.Valeriu Moldoveanu	252,157.00	22.11.2024	Redactarea unui tutorial dedicat modelării unor sisteme fizice și a dinamicii acestora cu ajutorul simulatoarelor de circuite cuantice. Indicatori: 1 studiu, 2 metode, tutorial disponibil on-line.
35	Faza 1(partea 2)	Tutorial dedicat simulărilor cuantice și limbajelor de programare cuantică (partea 2) Dr.Mugurel Țolea, Dr.Valeriu Moldoveanu	99,482.00	22.11.2024	Redactarea unui tutorial dedicat modelării unor sisteme fizice și a dinamicii acestora cu ajutorul simulatoarelor de circuite cuantice. Indicatori: 1 studiu, 2 metode, tutorial disponibil on-line.

Mai jos sunt prezentati indicatorii asumati in propunerea de proiect, valori de atins la finalizarea Programului Nucleu in anul 2026:

Indicatorii de rezultat ai programului Nucleu, conform HG 1188/2022 de aprobare a structurii PN IV, sunt următorii, cu țintele numerice previzionate a fi atinse la final, în 2026:

Tabel 3.1

Denumire indicator	Asumat 2026	Realizat 2023	Realizat 2024	Grad de realizare (%)
număr de soluții propuse la nevoile societale de către institutele naționale de cercetare dezvoltare;	minim 15	3 (biomateriale ceramice adecvate fabricării de scaffold-uri. Pentru implanturi osoase; Nanomateriale stocatoare de hidrogen cu conținut ridicat de H2; compozite de tipul MXene-semiconductori pentru producerea de H2 prin reacția de splitare fotocatalitică a apei).	4 (Nanocompozite magnetice termosensibile pentru aplicații biomedicale și tehnologice; Structuri spongioase de PDMS decorat cu TiO₂ cu aplicații fotocatalitice; materiale dielectrice cu pierderi reduse și de compozite cu derivă termică controlată; compozite pe baza de aliaje half-Heusler si HEA pentru aplicatii termoelectrice)	46.7
număr de cercetători sprijiniți;	minim 100	35 ENI (echivalent norma intreaga)	35 ENI (echivalent norma intreaga)	70
număr de proiecte de cercetare-dezvoltare finanțate;	minim 40	8 proiecte la care a inceput finantarea in 2023 (4 PNRR; 2 IFA-CERN; 1 EURATOM; 1 Europa Digitala) Au fost depuse 109 propuneri de proiecte (31 internationale si 78 nationale)	8 proiecte la care a inceput finantarea in 2024 (2 PNRR; 2 MERA-NET; 1 LEAP-RE; 2 Water4All; 1 RoNaQCI cofinantare)	40
număr de cereri de brevete/brevete depuse.	Minim 40	14 (Tabelul 4.3.1; 11 OSIM; 3 EPO)	29 (Tabelul 4.3.1; 27 OSIM; 2 EPO)	107.5

Alți indicatori, conform OG57/2002:

Tabel 3.2

Denumire indicator	Asumat 2026 per total Program Nucleu	Realizat 2023	Realizat 2024	Grad de realizare (%) fata de asumat per total program Nucleu
Lucrări publicate sau trimise la publicat	Minim 126 publicate	25 publicate cu multumiri la Nucleu	64 publicate cu multumiri la Nucleu	70.6
Brevete sau cereri de brevet	50	14 (Tabelul 4.3.1)	29 (Tabelul 4.3.1)	86
Produse/eșantioane/obiecte fizice/materiale	401	163	295	114.2
Demonstratoare	3	0	0	0
Tehnologii	41	7	21	68.3
Metode/procedee/rețete	192	67	111	92.7
Studii	193	93	259	182.4
Documentații	82	21	33	65.8
Formule	432	187	306	114.1
Scheme	132	35	118	115.9
Servicii	2	1	1	100
Planuri	4	1	3	100
Produse informatice/coduri numerice	18	6	13	105.5
Tutoriale	4	1	1	50

Stadiul de implementare al proiectelor componente

Tipul rezultatului estimat

Stadiul realizării 2023

(valoare absoluta in 2023; % fata de estimat)

Stadiul realizării 2024

(valoare absoluta in 2024; % realizat 2023+2024 fata de estimat)

40 lucrări pentru publicare în jurnale ISI;
18 cereri de brevet de invenție;
25 produse/esantioane/obiecte fizice/materiale
11 tehnologii
54 metode/retete/procedee
46 studii;
12 documentații;
18 scheme;
35 formule2 servicii

20 lucrări pentru publicare în jurnale ISI (50.0 %);
4 cereri de brevet de invenție (22.2 %);
8 produse/esantioane/obiecte fizice/materiale (32.0%)
2 tehnologii (18.2%)
11 metode/retete/procedee (20.4%)
21 studii (45.7);
4 documentații (33.3%);
3 scheme (16.7%);
5 formule (14.3%)1 servicii (50.0%)

17 lucrari trimise/publicate + 3 lucrari in redactare (92.5%)

4 cereri de brevet trimise + 1 brevet in redactare. (44%)

3 produse, 1 obiect fizic (44%)

2 tehnologii (36%)

32 metode/retete/procedee (79%)

18 studii (85%)

4 documentatii (66%)

21 scheme (133%)

19 formule (68%)

1 serviciu (100%)

46 articole trimise

19 cereri de brevet

216 produse/eșantioane/obiecte fizice/materiale

14 tehnologii

83 metode/rețete/procedee

105 studii

44 documentații

57 scheme

385 formule

4 planuri

16 produse informatice

25 articole trimise (54 %)

3 cereri de brevet (16 %)

107 obiecte (49.5 %)

3 tehnologii (21 %)

11 procedee, 26 rețete, 11 metode, total 48 (58 %)

54 studii (51.4 %)

11 documentații (25 %)

26 scheme (46 %)

182 formule (47.3 %)

1 plan (25 %)

6 produse informatice (37.5 %)

51 articole trimise (165.3 %)

7 cereri de brevet (52,8 %)

222 obiecte/produse (156.9 %)

14 tehnologii (121 %)

71 procedee/rețete/metode (143,5 %)

223 studii (273.8 %)

22 documentații (75 %)

84 scheme (193,4 %)

275 formule (118.7 %)

3 planuri (100 %)

13 produse informatice (118.8 %)

+ 2 capitole de carte

37 lucrări pentru publicare în jurnal ISI;

13 cereri de brevet de invenție;

160 produse/eșantioane/obiecte fizice/materiale;

16 tehnologii

41 metode/rețete/procedee

33 studii;

26 documentații;

57 scheme;

12 formule;

2 demostratoare

15 articole trimise (40,5 %)

4 cereri de brevete (30,7%)

48 produse/eșantioane/obiecte fizice/materiale (30%)

2 tehnologii (12,5 %)

7 metode/rețete/procedee (17 %)

15 studii (45.4%)

5,5 documentații (21, 2 %)

6 Scheme de reacție (10,5 %)

0 formule (0%)

0 demonstratoare (0%)

25 articole trimise/publicate (117.5%)

2 cereri de brevet: 2 (45.7%)

69 produse/ eșantioane/ obiecte fizice/ materiale (73%)

5 Tehnologii (43.5%)

8 metode/rețete/procedee (36%)

14 Studii (97.5%)

7 Documentații (48.2%)

13 Scheme (33.5%)

12 formule (100%)

0 demonstratoare (0%)

3 lucrări trimise

14 metode,

9 studii,

4 tutoriale disponibile online;

2 coduri numeric

1 demonstrator;

1 lucrare acceptată la Phys.Rev.C 22 noiembrie 2023); 3 lucrări trimise și acceptate pt Proceedings conferința MEDEX’23, Praga 4-8 sept. 2023; va apare în AIP în 2024.

1 metodă (7.14%)

3 studii (30%)

1 tutorial (25%)

9 lucrări publicate sau trimise la publicat (300 %)

4 metode (35.7 %)

4 studii (77.8 %)

1 tutorial (50 %)

anexa_11_raport_anual_activitate-2024

Descrierea activităţilor (utilizând şi informaţiile din rapoartele de fază, Anexa nr. 10)

Mai jos este prezentată schema de realizare pentru anul 2024. Detalii privind activitățile desfășurate și rezultatele obținute sunt prezentate la punctul 4 din Raport.

Nr. crt.	Cod proiect	Denumirea proiectului /	Valoare proiect /	Termen de încheiere al fazei	Rezultate estimate
Nr. crt.	Cod proiect	Nr. şi denumire faze de execuţie	Valoare fază de execuţie (lei)	Termen de încheiere al fazei	Rezultate estimate
		ANUL 2025
	PN23080101	Materiale avansate nanostructurate si straturi subtiri pentru aplicatii in sanatate, bio-senzori, combaterea poluarii si a schimbarilor climatice	10,221,607.11
1	Faza 1 A	F 1.2.2. Obținerea și caracterizarea morfo-structurală a oxizilor metalici semiconductori cu potențial în detecția acetonei(A. Stanoiu-70)	1,128,180.00	10.06.2025	i) Sinteza prin metoda hidrotermală a SnO2 și WO3; ii) Impregnarea umedă cu 0.2; 1; 5 wt.% NiO a SnO2 şi WO3; iii) Impregnarea cu 0.2; 1 şi 5 wt.% WO3 a SnO2; iv) Caracterizarea morfo-structurală a materialelor MOxS obținute – selecție de material; v) Realizarea senzorilor de acetonă pe bază de MOxS. Indicatori: i) 2 documentații; ii) 3 studii;
2	Faza 1 B	F 1.2.2. Obținerea și caracterizarea morfo-structurală a oxizilor metalici semiconductori cu potențial în detecția acetonei(A. Stanoiu-70)	1,128,180.00	10.09.2025	i) Sinteza prin metoda hidrotermală a SnO2 și WO3; ii) Impregnarea umedă cu 0.2; 1; 5 wt.% NiO a SnO2 şi WO3; iii) Impregnarea cu 0.2; 1 şi 5 wt.% WO3 a SnO2; iv) Caracterizarea morfo-structurală a materialelor MOxS obținute – selecție de material; v) Realizarea senzorilor de acetonă pe bază de MOxS. Indicatori: i) 2 documentații; ii) 2 studii; iii) 1 metodă; iv) 1 lucrare pentru publicare în jurnal ISI.
3	Faza 2 A	F 1.3.5. Pansament din fibre funcționalizate pentru monitorizarea rănilor (M. Barsan -10)	1,128,180.00	10.07.2025	i) Fabricarea de pansamente din fibre polimerice obținute prin metode de electrofilare și/sau filare centrifugală; ii) Nanostructurarea și funcționalizarea cu enzime a pansamentelor din fibre polimerice nanostructurate pentru inducerea unor stimuli (bio)chimici; iii) Testarea pansamentelor pentru monitorizarea unor substanțe cheie în procesul de vindecare a rănilor. Indicatori: i) 2 studii; ii) 1 tehnologie;
4	Faza 2 B	F 1.3.5. Pansament din fibre funcționalizate pentru monitorizarea rănilor (M. Barsan -10)	1,128,180.00	10.10.2025	i) Fabricarea de pansamente din fibre polimerice obținute prin metode de electrofilare și/sau filare centrifugală; ii) Nanostructurarea și funcționalizarea cu enzime a pansamentelor din fibre polimerice nanostructurate pentru inducerea unor stimuli (bio)chimici; iii) Testarea pansamentelor pentru monitorizarea unor substanțe cheie în procesul de vindecare a rănilor. Indicatori: iii) 1 produs; iv) 1 lucrare pentru publicare în jurnal ISI.
5	Faza 3 A	F 1.3.6. Sisteme de tip lateral-flow pentru detecția de acizi nucleici circulatori. (Victor Diculescu-10).	1,128,180.00	11.08.2025	i) Obținerea de electrozi flexibili și atașarea acestora în zona de test. Funcționalizarea cu biomolecule; ii) Obținerea de nanoparticule și funcționalizarea cu secvențe de acizi nucleici și/sau alte biomolecule în zona de conjugare; iii) Dezvoltarea de sisteme de tip lateral-flow prin asamblarea zonelor de introducere a probei, de conjugare, de test și de absorbție; Indicatori: i) 2 studii; ii) 1 tehnologie;
6	Faza 3 B	F 1.3.6. Sisteme de tip lateral-flow pentru detecția de acizi nucleici circulatori. (Victor Diculescu-10).	1,128,180.00	10.11.2025	i) Obținerea de electrozi flexibili și atașarea acestora în zona de test. Funcționalizarea cu biomolecule; ii) Obținerea de nanoparticule și funcționalizarea cu secvențe de acizi nucleici și/sau alte biomolecule în zona de conjugare; iii) Dezvoltarea de sisteme de tip lateral-flow prin asamblarea zonelor de introducere a probei, de conjugare, de test și de absorbție; Indicatori: iii) 1 produs; iv) 1 lucrare pentru publicare în jurnal ISI; v) 1 cerere de brevet de invenție.
7	Faza 4	F 1.6.2. Producerea și caracterizarea reologică de paste din noi materiale bioactive și piezoelectrice, cu încărcare mare de solid și proprietăți pseudoplastice, adecvate realizării de substitute osoase sintetice prin DIW (G. Stan-20).	2,256,359.00	10.12.2025	i) Evidențierea proprietăților catalitice ale suprafețelor feroelectrice combinate cu metale nobile. Indicatori: i) 2 documentații; ii) 3 studii; iii) 3 scheme; iv) 4 rețete; v) 5 formule;
8	Faza 5	F 1.10.2 (partea 1) Proprietăți catalitice sinergice prin combinarea substraturilor feroelectrice cu nanoparticule din metale nobile (C. Teodorescu)	1,196,168.11	10.12.2025	Ținte: i) Evidențierea proprietăților catalitice ale suprafețelor feroelectrice combinate cu metale nobile. Indicatori: i) 2 documentații; ii) 6 studii; iii) 1 lucrări pentru publicare în jurnale ISI; iii) 5 scheme; iv) 3 rețete; v) 7 formule; vi) 2 metode; vii) 1 cerere de brevet de invenție.
	PN23080202	Noi dezvoltari in domeniul materialelor functionale pentru aplicatii de inalta tehnologie (electronica, optoelectronica, senzoristica)	12,477,967.11
9	Faza 2 A	F2.3.4. Studii de frontieră asupra heterostructurilor bidimensionale. (B. Ostahie, V. Moldoveanu-50)	1,128,180.00	10.06.2025	Ținte: Dezvoltarea de metode pentru modelarea fenomenelor de transport și interacție asociate stărilor de spin și “vale” ale heterostructurilor 2D cu contacte electrice. Predicții asupra modelelor experimentale. Indicatori de realizare: 2 studii, 1 metoda,
10	Faza 2 B	F2.3.4. Studii de frontieră asupra heterostructurilor bidimensionale. (B. Ostahie, V. Moldoveanu-50)	1,128,180.00	10.09.2025	Ținte: Dezvoltarea de metode pentru modelarea fenomenelor de transport și interacție asociate stărilor de spin și “vale” ale heterostructurilor 2D cu contacte electrice. Predicții asupra modelelor experimentale. Indicatori de realizare: minim 1 articol trimis spre publicare la jurnale ISI, 1 metoda, 1 produs informatic
11	Faza 3 A	F2.2.3. Sisteme cu control magnetoelectric. Sinteza noilor teorii (C. M. Teodorescu-40)	1,128,180.00	10.07.2025	(1) Sisteme cu control magneto-electronic al magnetizării prin variația polarizării feroelectrice; (2) Sinteza aspectelor teoretice noi în teoria sistemelor multiferoice într-o lucrare de amploare (carte). Indicatori: 5 documentații, 1 studiu, 9 probe, 7 scheme.
12	Faza 3 B	F2.2.3. Sisteme cu control magnetoelectric. Sinteza noilor teorii (C. M. Teodorescu-40)	1,128,180.00	10.10.2025	(1) Sisteme cu control magneto-electronic al magnetizării prin variația polarizării feroelectrice; (2) Sinteza aspectelor teoretice noi în teoria sistemelor multiferoice într-o lucrare de amploare (carte). Indicatori: 1 lucrare trimisă, 1 carte, 150–200 formule. 7 scheme, o cerere de brevet de invenție.
13	Faza 4 A	F2.8.2. Magneți permanenți cu conținut redus de materiale critice (Low-Mc) cu operativitate în domeniul auto (M. Sofronie, O. Crișan-30)	1,128,180.00	11.08.2025	(i) Proiectarea și elaborarea prin metode de sinteză complementare a unei noi clase de magneți nanocompoziți Low-Mc pe baza de Mn-Al-C, MnAl/FeCoB, MnBi (ii) Optimizarea compoziției aliajului și a structurii de fază prin modulare compozițională în accord cu parametrii de sinteză; (iii) Investigarea caracteristicilor morfo-structurale, determinarea și optimizarea proprietăților magnetice și performantelor, modelarea mecanismelor de interacție dintre regiunile magnetice și corelarea caracteristicilor structurale cu comportamentul magnetic, (iv) Conceperea, proiectarea și elaborarea de modele experimentale prin manufacturare aditivă pentru magneți necesari în industria auto. Indicatori: 2 rețete de sinteza de ne-echilibru, 1 documentatie, 1 tehnologie de optimizare proprietăți magnetice,
14	Faza 4 B	F2.8.2. Magneți permanenți cu conținut redus de materiale critice (Low-Mc) cu operativitate în domeniul auto (M. Sofronie, O. Crișan-30)	1,128,180.00	10.11.2025	(i) Proiectarea și elaborarea prin metode de sinteză complementare a unei noi clase de magneți nanocompoziți Low-Mc pe baza de Mn-Al-C, MnAl/FeCoB, MnBi (ii) Optimizarea compoziției aliajului și a structurii de fază prin modulare compozițională în accord cu parametrii de sinteză; (iii) Investigarea caracteristicilor morfo-structurale, determinarea și optimizarea proprietăților magnetice și performantelor, modelarea mecanismelor de interacție dintre regiunile magnetice și corelarea caracteristicilor structurale cu comportamentul magnetic, (iv) Conceperea, proiectarea și elaborarea de modele experimentale prin manufacturare aditivă pentru magneți necesari în industria auto. Indicatori: 1 tehnologie de optimizare proprietăți magnetice, un model experimental, 1 lucrare ISI
15	Faza 5	F2.7.2. Procesarea pulberilor de boruri tip MBene modificate (P. Bădică-30)	2,256,360.00	10.11.2025	Obtinerea și caracterizarea compactelor și corpurilor solide masive sinterizate din pulberi tip MBene modificate. Indicatori: 2 produse tip compact din boruri cu structura 2D grafitică cu rețete de obținere, 1 articol ISI, 1 cerere de brevet.
16	Faza 6	F2.10.2. ( partea 1) Fabricarea si testarea de senzori discreți. Fabricarea de matrici de senzori (A. M. Lepădatu-70)	1,937,914.25	10.09.2025	Obținerea de filme cu sensibilitate țintită crescută la RT în SWIR până la 2 μm și caracterizarea lor complexă; Fabricarea de senzori discreți și de matrici de senzori. Indicatori: 10 probe test optimizate, parametri tehnologici optimizați, 1 tehnologie de obținere de filme cu sensibilitate țintită crescută la RT în SWIR până la 2 μm, 20-25 structură - imagini, 40 proprietăți electrice & fototoelectrice - caracteristici; 1 lucrare trimisă spre publicare.
17	Faza 6	F2.10.2. ( partea 2) Fabricarea si testarea de senzori discreți. Fabricarea de matrici de senzori (A. M. Lepădatu-70)	318,444.75	10.12.2025	Obținerea de filme cu sensibilitate țintită crescută la RT în SWIR până la 2 μm și caracterizarea lor complexă; Fabricarea de senzori discreți și de matrici de senzori. Indicatori: i) 5 probe test optimizate ii) parametri tehnologici optimizati iii) 10 proprietati electrice & fotoelectrice - caracteristici iv) 1 lucrare trimisa spre publicare v) 1 prezentare la conferinta internationala.
18	Faza 7	F2.1.3. (partea 1) Investigarea proprietăților funcționale ale noilor materiale/heterostructuri feroelectrice sau multiferoice. (C. F. Chirilă, L. Pintilie)	1,196,168.11	10.12.2025	Tinte: Investigarea proprietăților feroelectrice, multiferoice, dielectrice, piroelectrice, piezoelectrice și optice pentru materialele de tip binary dopat, heterostructuri, nanocompozite sau cristal organic. Indicatori: 8 obiecte fizice; 1 schema de realizare a montajelor, în vederea realizarii țintelor propuse; 1 documentație; 1 studiu; 1 lucrare trimisă spre publicare.
	PN23080303	Noi formule, arhitecturi si solutii pentru surse regenerabile de energie si stocarea energiei sub diverse forme	10,654,773.36
19	Faza 1	F3.3.2.(partea 2) Straturi din materiale 2D pe baza de dicalcogenuri ale metalelor de tranzitie si/sau mixte cu donori polimerici si noi acceptori din grafena functionalizata cu polimeri conductori (RGO-POT). Depunere si caracterizare optica, structurala, morfologica si electrica. Dr. Marcela Socol-60	1,629,335.36	10.06.2025	i)depunere de straturi mixte: donor polimer si acceptor din material 2D (grafena functionalizata cu polimeri conductor) - caracterizare optica, structurala, morfologica si electrica; Indicatori: 1 documentație, 1 studiu, 1 lucrare
20	Faza 3 A	F3.5.3. Proof-of-concept al materialelor sintetizate în fazele F3.5.1 si F3.5.2 pentru reducerea CO₂ la produse cu valoare adăugată cum ar fi CO, metanol sau metan si reducerea N2 cu producere de amoniac. (M. Florea si F. Neatu-80)	1,128,180.00	10.06.2025	Designul și optimizarea fotoreactorului pentru realizarea proceselor fotocatalitice, altele decât reacția de splitare a apei; Evidențierea parametrilor optimi de realizare a acestor reacțiilor fotocatalitice; Atingerea unor valori ridicate ale AQE pentru reacția de reducere fotocatalitică a CO2 și a N2. Indicatori: 1 foto-reactor
21	Faza 3 B	F3.5.3. Proof-of-concept al materialelor sintetizate în fazele F3.5.1 si F3.5.2 pentru reducerea CO₂ la produse cu valoare adăugată cum ar fi CO, metanol sau metan si reducerea N2 cu producere de amoniac. (M. Florea si F. Neatu-80)	1,128,179.00	11.08.2025	Designul și optimizarea fotoreactorului pentru realizarea proceselor fotocatalitice, altele decât reacția de splitare a apei; Evidențierea parametrilor optimi de realizare a acestor reacțiilor fotocatalitice; Atingerea unor valori ridicate ale AQE pentru reacția de reducere fotocatalitică a CO2 și a N2. Indicatori: 1 lucrare trimisa spre publicare
22	Faza 4	F3.8.9. Sinteza, proprietatile fizico-electrochimice si aplicatiile compozitelor ternare de tip RGO/polimer conductor/WS₂ ca material activ de electrod in celulele supercapacitorilor. (M. Dinescu, A. Nila si M. Baibarac-60)	2,256,359.00	10.12.2025	sinteza, proprietatile fizico-electrochimice si aplicatiile compozitelor ternare de tip RGO/polimer conductor/WS2 ca material activ de electrod in celulele supercapacitorilor Indicatori: 1 documentație, 2 retete de preparare, 2 scheme de reactii, 1 tehnologie de laborator, 1 lucrare trimisa spre publicare la o revistă ISI, 1 cerere de brevet
23	Faza 6 A	F3.9.2 Nanocompozite hidruri complexe / matrici carbonice funcționalizate pentru stocarea eficienta a H₂, obținute prin măcinare, impregnare din soluție sau din topitura. (P. Palade-30)	1,128,180.00	10.07.2025	Se vor sintetiza noi suporti carbonici nanoporosi (ca si replica a silicei nanoporoase) functionalizati cu nanoparticule metalice si modificati cu grupari –NH2 sau cu substitutie de N (prin tratarea in flux de NH3) Indicatori: 1 reteta, 1 procedeu, 1 cerere de brevet de inventie
24	Faza 6 B	F3.9.2 Nanocompozite hidruri complexe / matrici carbonice funcționalizate pentru stocarea eficienta a H2, obținute prin măcinare, impregnare din soluție sau din topitura. (P. Palade-30)	1,128,180.00	10.10.2025	Se vor sintetiza noi suporti carbonici nanoporosi (ca si replica a silicei nanoporoase) functionalizati cu nanoparticule metalice si modificati cu grupari –NH2 sau cu substitutie de N (prin tratarea in flux de NH3) Indicatori: 1 reteta, 1 procedeu, 1 lucrare trimisa spre publicare
25	Faza 7	F3.3.4 Strat buffer pe baza de grafena si/sau grafena/polimer conductor pentru structuri de celula solara hibrida organic : nanoparticule semiconductoare.(C.Breazu)	2,256,360	10.12.2025	Ținte: Depunerere de strat buffer pe baza de grafena si/sau grafena functionalizata cu polimer conductor - caracterizare optica, morfologica, structurala, electrica Indicatori: 1 documentație, 1 lucrare trimisa spre publicare la o revistă ISI
	PN23080404	CIFRA-Sinergii intre cercetarea avansata in domeniul Fizicii si promovarea Fizicii in societate	538,949.97
26	Faza 1 A	Configurarea unei platforme de tip demonstrator din domeniul caracterizarii de tip AFM si a micro-manipularii, la distanta sau prin contact. (Alexandru Ivan)	301,897.00	10.09.2025	identificarea solutiilor tehnnologice de reducere a costurilor si dimensiunilor echipamentelor (fara a compromite semnificativ performantele demonstratorului), de exemplu prin utilizarea elementelor de tip open-source si proiectarea/fabricarea proprie a unor sub-ansamble sensibile. Indicatori: construirea unei platforme demonstrator
27	Faza 1 B	Configurarea unei platforme de tip demonstrator din domeniul caracterizarii de tip AFM si a micro-manipularii, la distanta sau prin contact. (Alexandru Ivan-30)	156,793.00	10.12.2025	identificarea solutiilor tehnnologice de reducere a costurilor si dimensiunilor echipamentelor (fara a compromite semnificativ performantele demonstratorului), de exemplu prin utilizarea elementelor de tip open-source si proiectarea/fabricarea proprie a unor sub-ansamble sensibile. Indicatori: construirea unei platforme demonstrator
28	Faza 2	Tutorial dedicat platformelor fizice pentru calcul cuantic I: qubits supraconductori (partea 1)	80,259.97	10.12.2025	Tinte: Redactarea unui tutorial despre sistemele de qubits supraconductori pentru calcul cuantic. Indicatori: 1 studiu, 2 metode
		TOTAL 2025	33,893,297.55

Mai jos sunt prezentați indicatorii asumați în propunerea de proiect, valori de atins la finalizarea Programului Nucleu în anul 2026:

Indicatorii de rezultat ai programului Nucleu, conform HG 1188/2022 de aprobare a structurii PN IV, sunt următorii, cu țintele numerice previzionate a fi atinse la final, în 2026:

Tabel 3.1

Denumire indicator	Asumat 2026	Realizat 2023	Realizat 2024	Realizat 2025	Realizat 2026	Grad de realizare (%)
număr de soluții propuse la nevoile societale de către institutele naționale de cercetare dezvoltare;	minim 15	3 (biomateriale ceramice adecvate fabricării de scaffold-uri. Pentru implanturi osoase; Nanomateriale stocatoare de hidrogen cu conținut ridicat de H2; compozite de tipul MXene-semiconductori pentru producerea de H2 prin reacția de splitare fotocatalitică a apei).	4 (Nanocompozite magnetice termosensibile pentru aplicații biomedicale și tehnologice; Structuri spongioase de PDMS decorat cu TiO₂ cu aplicații fotocatalitice; materiale dielectrice cu pierderi reduse și de compozite cu derivă termică controlată; compozite pe baza de aliaje half-Heusler si HEA pentru aplicatii termoelectrice)	4 (Pansament din fibre functionalizate pentru monitorizarea ranilor; Magneți permanenți cu conținut redus de materiale critice (Low-Mc) cu operativitate în domeniul auto; materiale compozite de tip grafena/polimer pentru aplicatii de supercapacitor electrolitic; platforme educationala din domeniul caracterizarii de tip AFM)		73.3
număr de cercetători sprijiniți;	minim 100	35 ENI (echivalent normă intreaga)	35 ENI (echivalent normă intreaga)	15 ENI (echivalent normă intreaga)		85
număr de proiecte de cercetare-dezvoltare finanțate;	minim 40	8 proiecte la care a inceput finantarea in 2023 (4 PNRR; 2 IFA-CERN; 1 EURATOM; 1 Europa Digitala) Au fost depuse 109 propuneri de proiecte (31 internationale si 78 nationale)	8 proiecte la care a început finanțarea in 2024 (2 PNRR; 2 MERA-NET; 1 LEAP-RE; 2 Water4All; 1 RoNaQCI cofinanțare)	26 proiecte la care a început finanțtarea în 2025 (21 diverse programe în cadrul PN IV, în special PED, PCE, TE si PTE; 5 cu finanțare Horizon Europe)		105
număr de cereri de brevete/brevete depuse.	Minim 40	14 (Tabelul 4.3.1; 11 OSIM; 3 EPO)	29 (Tabelul 4.3.1; 27 OSIM; 2 EPO)	17 (Tabelul 4.3.1; 16 OSIM; 1 EPO)		150

Alți indicatori, conform OG57/2002:

Tabel 3.2

Denumire indicator	Asumat 2026 per total Program Nucleu	Realizat 2023	Realizat 2024	Realizat 2025	Realizat 2026	Grad de realizare (%) fata de asumat per total program Nucleu
Lucrări publicate sau trimise la publicat	Minim 126 publicate	25 publicate cu multumiri la Nucleu	64 publicate cu multumiri la Nucleu	86 publicate cu mulțumiri la Nucleu		138.8
Brevete sau cereri de brevet	50	14 (Tabelul 4.3.1)	29 (Tabelul 4.3.1)	17 (Tabelul 4.3.1 EPO)		150
Produse/eșantioane/obiecte fizice/materiale	401	163	295	65		130.4
Demonstratoare	3	0	0	1		33
Tehnologii	41	7	21	5		80.5
Metode/procedee/rețete	192	67	111	41		114
Studii	193	93	259	145		257.5
Documentații	82	21	33	15		84.1
Formule	432	187	306	165		152.3
Scheme	132	35	118	36		143.2
Servicii	2	1	1	1		150
Planuri	4	1	3	0		100
Produse informatice/coduri numerice	18	6	13	0		105.5
Tutoriale	4	1	1	1		75

Obiectivele propuse pentru 2023-2026 au fost realizate integral (detalii se pot găsi în fişierele anexa 10-rapoartele de activitate ale fazelor predate în 2024, toate sunt disponibile la MCID sau la INCDFM).

Se apreciază că indicatorii asumaţi în propunere au fost îndepliniţi în proporţie de peste 80 % (în medie). Pana la finalizarea Programului in decembrie 2026 vor fi realizati toti indicatorii, unii fiind deja depasiti (studii, documentatii, procedee, formule, altele similar) cee ace este specific unei activitati de cercetare cu puternic character aplicativ.

Prezentarea rezultatelor:

Stadiul de implementare al proiectelor componente

Tipul rezultatului cu estimarea din propunere

Stadiul realizării 2023

(valoare absoluta in 2023; % fata de estimat)

Stadiul realizării 2024

(valoare absoluta in 2024;

% realizat 2023+2024 fata de estimat)

Stadiul realizării 2025

(valoare absoluta in 2025;

% realizat 2023+2024+2025 fata de estimat)

Stadiul realizării la finalizare in 2026

(valoare absoluta in 2026;

% realizat 2023-2026 fata de estimat)

17 lucrari trimise/publicate + 3 lucrari in redactare (92.5%)

4 cereri de brevet trimise + 1 brevet in redactare. (44%)

3 produse, 1 obiect fizic (44%)

2 tehnologii (36%)

32 metode/retete/procedee (79%)

18 studii (85%)

4 documentatii (66%)

21 scheme (133%)

19 formule (68%)

1 serviciu (100%)

7 lucrari trimise/publicate + 2 lucrari in redactare (110%)

2 cereri de brevet trimise (61.11%)

2 produse (56%)

2 tehnologie (54.54%)

14 metode/retete/procedee (105.55))

24 studii (136.95%)

5 documentatii (108.33%)

3 scheme (138.88%)

19 formule (122.85%)

46 articole trimise

19 cereri de brevet

216 produse/eșantioane/obiecte fizice/materiale

14 tehnologii

83 metode/rețete/procedee

105 studii

44 documentații

57 scheme

385 formule

4 planuri

16 produse informatice

25 articole trimise (54,3 %)

3 cereri de brevet (15,8 %)

157 obiecte (72,7 %)

3 tehnologii (21,4 %)

11 procedee, 26 rețete, 11 metode, total 48 (57,8 %)

140 studii (133,3 %)

11 documentații (25 %)

26 scheme (45,6 %)

232 formule (60.3 %)

1 plan (25 %)

9 produse informatice (56,2 %)

26 articole trimise (total 51, adică 110,9 %)

4 cereri de brevet (total 7, adică 36,8 %)

65 obiecte/produse (total 232, adică 107,4 %)

11 tehnologii (total 14, adică 100 %)

23 procedee/rețete/metode (total 71, adică 85,6 %)

83 studii (total 223, adică 212,4 %)

11 documentații (total 22, adică 50 %)

58 scheme (total 84, adică 147,4 %)

43 formule (total 275, adică 71,4 %)

2 planuri (total 3, adică 75 %)

4 produse informatice (total 13, adică 81,3 %)

+ 2 capitole de carte

21 articole trimise (total 72, adică 156,5%)

2 cereri de brevet (total 9, adică 47,4 %)

52 obiecte/produse (total 284, adică 131,5 %)

2 tehnologii (total 16, adică 114,3 %)

9 procedee/rețete/metode (total 80, adică 96,4 %)

119 studii (total 342, adică 325,7 %)

7 documentații (total 29, adică 65,9 %)

31 scheme (total 115, adică 201,8 %)

146 formule (total 421, adică 109,4 %)

0 planuri (total 3, adică 75 %)

0 produse informatice (total 13, adică 81,3 %)

37 lucrări pentru publicare în jurnal ISI;

13 cereri de brevet de invenție;

160 produse/eșantioane/obiecte fizice/materiale;

16 tehnologii

41 metode/rețete/procedee

33 studii;

26 documentații;

57 scheme;

12 formule;

2 demostratoare

15 articole trimise (40,5 %)

4 cereri de brevete (30,7%)

48 produse/eșantioane/obiecte fizice/materiale (30%)

2 tehnologii (12,5 %)

7 metode/rețete/procedee (17 %)

15 studii (45.4%)

5,5 documentații (21, 2 %)

6 Scheme de reacție (10,5 %)

0 formule (0%)

0 demonstratoare (0%)

25 articole trimise/publicate (117.5%)

2 cereri de brevet: 2 (45.7%)

69 produse/ eșantioane/ obiecte fizice/ materiale (73%)

5 Tehnologii (43.5%)

8 metode/rețete/procedee (36%)

14 Studii (87.8%)

7 Documentații (48.2%)

13 Scheme (33.5%)

12 formule (100%)

0 demonstratoare (0%)

11 articole trimise/publicate (137,8 %)

2 cereri de brevet: (61,5%)

11 produse/ eșantioane/ obiecte fizice/ materiale (80%)

1 Tehnologii (50%)

8 metode/rețete/procedee (56%)

2 Studii (94%)

3 Documentații (59,6%)

2 Scheme (36,8%)

0 formule (100 %)

0 demonstratoare (0%)

3 lucrări trimise

14 metode,

9 studii,

4 tutoriale disponibile online;

2 coduri numeric

1 demonstrator;

1 lucrare acceptată la Phys.Rev.C 22 noiembrie 2023); 3 lucrări trimise și acceptate pt Proceedings conferința MEDEX’23, Praga 4-8 sept. 2023; va apare în AIP în 2024.

1 metodă (7.14%)

3 studii (30%)

1 tutorial (25%)

9 lucrări publicate sau trimise la publicat (300 %)

4 metode (35.7 %)

4 studii (77.8 %)

1 tutorial (50 %)

1 demonstrator

Nr.	Autori	Titlu	Finantare	Journal	An
1	Bunea, MC; Enache, TA; Diculescu, VC	In situ Electrochemical Evaluation of the Interaction of dsDNA with the Proteasome Inhibitor Anticancer Drug Bortezomib	Financial support from the Romanian Executive Agency for Higher Education, Research, Development and Innovation Funding (UEFISCDI) through projects PN-III-P4-PCE-2021-1006 and from the Romanian Ministry of Research, Innovation and Digitalization through Operational Programme Competitiveness 2014-2020, Project: NANOBIOSURF-SMIS 103528 and Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	MOLECULES 28, 3277 http://dx.doi.org/10.3390/molecules28073277	2023
2	Mihalache, V; Negrila, C; Secu, M; Mercioniu, I; Iacob, N; Kuncser, V	Defect structures and (ferro)magnetism in Zn1-xFexO nanoparticles with the iron concentration level in the dilute regime (x = 0.001 - 0.01) prepared from acetate precursors	The fee for open-access publication was supported by the project 35PFE/2021, funded by the Romanian Ministry of Research, Innovation and Digitization. This work was also supported by the Core Program of the National Institute of Materials Physics under Project PC2-PN23080202. The authors gratefully acknowledge Dr I. Pasuk (NIMP, Romania) for her experimental and technical support.	RESULTS PHYS 51, 106644 http://dx.doi.org/10.1016/j.rinp.2023.106644	2023
3	Ganea, CP; Zgura, I; Frunza, L	Numerical deconvolution approaches for dielectric characteristics of complex composite materials based on liquid crystals and oxide nanopowders	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	MATER CHEM PHYS 309, 128372 http://dx.doi.org/10.1016/j.matchemphys.2023.128372	2023
4	Comanescu, C	Calcium Borohydride Ca(BH4)2: Fundamentals, Prediction and Probing for High-Capacity Energy Storage Applications, Organic Synthesis and Catalysis	This work was supported by the Romanian Ministry of Research and Innovation through Project No. PN-III-P1-1.1-TE-2021-1657 (TE 84/2022) and by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	ENERGIES 16, 4536 http://dx.doi.org/10.3390/en16114536	2023
5	Comanescu, C	Graphene Supports for Metal Hydride and Energy Storage Applications	This work was supported by the Romanian Ministry of Research and Innovation through the Project No. PN-III-P1-1.1-TE-2021-1657 (TE 84/2022) and by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	CRYSTALS 13, 878 http://dx.doi.org/10.3390/cryst13060878	2023
6	Moldoveanu, V; Dragomir, R	Climbing the anisotropy barrier of single-molecule magnets with spin-vibron interaction	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under Project No. PC2-PN23080202.	PHYS REV B 108, 24416 http://dx.doi.org/10.1103/PhysRevB.108.024416	2023
7	Assahsahi, I; Popescu, B; El Bouayadi, R; Zejli, D; Enculescu, M; Galatanu, A	Thermoelectric properties of p-type Mg2Si0.3Sn0.7 doped with silver and gallium	The authors acknowledge the Romanian Ministry of Research and Innovation for financial support through the Core Program 2019-2022 (contract No. 21N/08.02.2019) and POC-G 54/2016 MAT2IT (contract No. 1550/2018) projects.	J ALLOY COMPD 944, 169270 http://dx.doi.org/10.1016/j.jallcom.2023.169270	2023
8	Nair, MM; Iacoban, AC; Neatu, F; Florea, M; Neatu, S	A comparative overview of MXenes and metal oxides as cocatalysts in clean energy production through photocatalysis	This work was supported by grants of the Ministry of Research, Innovation and Digitization, CNCS - UEFISCDI, project number PN-III-P4-PCE-2021-1461 and PN-III-P4-ID-ERC-2021-0007, all within PNCDI III. Financial support from Romanian Ministry of Research, Innovation and Digitization through the Core Program 2023-2026 (contract PC3-PN23080303) is gratefully acknowledged.	J MATER CHEM A 11, 12559-12592 http://dx.doi.org/10.1039/d2ta08983a	2023
9	Florea, NM; Nita, CR; Sotty, C; Marginean, RM; Bacalum, M; Enculescu, M; Marginean, N; Matei, E; Mereuta, P; Mihai, C; Vasilca, S	Preparation of 82Se thin films with trigonal hexagonal crystal structure for in-beam nuclear structure experiments	This work was supported by the Romanian Ministry of Research, Innovation and Digitization under Contracts PN-III-P1-1.1-TE-2019-0337 and PN 23 21 01 02.	VACUUM 215, 112250 http://dx.doi.org/10.1016/j.vacuum.2023.112250	2023
10	Simion, CE; Junker, B; Weimar, U; Stanoiu, A; Bârsan, N	Sensing mechanisms of CO and H2 with NiO material - DRIFTS investigations	This work was supported by the Romanian Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, through the projects PN-III-P4-ID-PCE-2020-0506 and PN-III-P4-PCE-2021-0384 within PNCDI III and Core Program of the National Institute of Materials Physics through the Project PC1-PN23080101.	SENSOR ACTUAT B-CHEM 390, 134028 http://dx.doi.org/10.1016/j.snb.2023.134028	2023
11	Bayoudhi, D; Bouzidi, C; Matei, E; Secu, M; Galca, AC	Optical characterization of Sm3+doped phosphate glasses for potential orange laser applications	CNRSM authors acknowledge the financial support from the Ministry of Higher Education and Scientific Research of Tunisia. NIMP authors acknowledge funding by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	J LUMIN 265, 120204 http://dx.doi.org/10.1016/j.jlumin.2023.120204	2024
12	Derbali, S; Nouneh, K; Leonat, LN; Stancu, V; Tomulescu, AG; Galca, AC; Touhami, ME; Pintilie, I; Florea, M	Partial replacement of Pb2+ in MAPbI2.6Cl0.4 perovskite films and their photovoltaic performance	S.D. acknowledges the Romanian Ministry of Foreign Affairs and Agence Universitaire de la Francophonie for the Eugen Ionescu research scholarship no.15/2019. The research leading to these results has received funding from the EEA Grants 2014-2021, under Project contract no. 36/2021 (project code: EEA-RO-NO-2018-0106) and Core Program 2023-2026, project PN23080303.	J MATER SCI-MATER EL 34, 903 http://dx.doi.org/10.1007/s10854-023-10318-9	2023
13	Mitran, G; Neatu, S; Pavel, OD; Urda, A; Mirea, AG; Florea, M; Neatu, F	Iron-doped Co3O4 catalysts prepared by a surfactant-assisted method as effective catalysts for malic acid oxidative decarboxylation	This work was supported by a grant from the Romanian Ministry of Education and Research, CNCS - UEFISCDI, project number PNIII-P4-ID-PCE-2020-0580, within PNCDI III. FN, MF and SN acknowledge the Ministry of Research, Innovation and Digitization, CNCS - UEFISCDI for financial support through project no. PN-III-P4-ID-ERC-2021-0007 and the Core Program 2023-2026 (contract PC3-PN23080303).	CATAL SCI TECHNOL 13, 4420-4434 http://dx.doi.org/10.1039/d3cy00121k	2023
14	Zaki, MY; Sava, F; Simandan, ID; Buruiana, AT; Bocirnea, AE; Stavarache, I; Velea, A; Galca, AC; Pintilie, L	From non-stoichiometric CTSe to single phase and stoichiometric CZTSe films by annealing under Sn plus Se atmosphere	Authors kindly acknowledge the financial support of the Romanian Ministry of Research, Innovation and Digitalization in the framework of the UEFICDI PN-III-P1-1.1-PD-2021-0240 (contract no. PD 41/2022) and UEFISCDI PN-III-P4-ID-PCE-2020-0827 (contract no. PCE74/09.02.2021) projects and Core Program Project PC3-PN23080303.	CERAM INT 49, 33692-33702 http://dx.doi.org/10.1016/j.ceramint.2023.08.056	2023
15	Costas, A; Preda, N; Zgura, I; Kuncser, A; Apostol, N; Curutiu, C; Enculescu, I	Silver nanoparticles decorated ZnO-CuO core-shell nanowire arrays with low water adhesion and high antibacterial activity	N.P. and A.C. acknowledge to the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, for the financial support through the project number PN-III-P4-PCE-2021-1131, within PNCDI III and the project code PN-III-P2-2.1-PED-2021-3984 (contract no.: 707PED/ 2022). Also, the authors gratefully acknowledge for the financial support to the Core Program of the NIMP, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1- PN23080101.	SCI REP-UK 13, 10698 http://dx.doi.org/10.1038/s41598-023-37953-w	2023
16	Comanescu, C	Recent Advances in Surface Functionalization of Magnetic Nanoparticles	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101 and Projects No. PN-III-P1-1.1-TE-2021-1657 (TE 84/2022) and TE 91/2022.	COATINGS 13, 1772 http://dx.doi.org/10.3390/coatings13101772	2023
17	Abramiuc, LE; Tanase, LC; Prieto, MJ; Caldas, LD; Tiwari, A; Apostol, NG; Husanu, MA; Chirila, CF; Trupina, L; Schmidt, T; Pintilie, L; Teodorescu, CM	Surface charge dynamics on air-exposed ferroelectric Pb(Zr,Ti)O3(001) thin films	We would like to thank the Helmholtz Centre Berlin for Materials and Energy (HZB) for the allocation of beamtime under the proposal 202-09863-ST. L. E. A. was funded by the Romanian UEFISCDI Agency under contract no. PN-III-P1-1.1-PD-2019-0763. N. G. A. was funded by the project PN-III-P1-1.1-TE-2019-0916 granted by the UEFISCDI Romanian authority. M. A. H. was funded by the project PN-III-P4-ID-PCE-2020-2540 granted by the same entity. C. M. T. was funded by the ELI_17 granted by the Institute of Atomics Physics, Romania. We also acknowledge the funding by the Core Program of National Institute of Materials Physics, project no. PC1-PN23080101. The SMART instrument was financially supported by the Federal German Ministry of Education and Research (BMBF) under the contract 05KS4WWB/4, as well as by the Max-Planck Society. L. d. S. C. is grateful for the funding through the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany's Excellence Strategy-EXC 2008-390540038 (UniSysCat). M. J. P. and L.C.T. were funded by the German Federal Ministry of Education and Research (BMBF) under grant no. 03EW0015B (CatLab).	NANOSCALE 15, 13062-13075 http://dx.doi.org/10.1039/d3nr02690f	2023
18	Plocon, C; Evanghelidis, A; Enculescu, M; Isopencu, G; Oprea, O; Bacalum, M; Raileanu, M; Jinga, S; Busuioc, C	Development and Characterization of Electrospun Composites Built on Polycaprolactone and Cerium-Containing Phases	Mihaela Bacalum and Mina Raileau acknowledge the financial support of MCDI through the Nucleu Program within the National Plan for Research, Development and Innovation 2022-2027, project PN 23 21 02 02.	INT J MOL SCI 24, 14201 http://dx.doi.org/10.3390/ijms241814201	2023
19	Kuncser, A; Vasylkiv, O; Borodianska, H; Demirskyi, D; Badica, P	High bending strength at 1800 °C exceeding 1 GPa in TiB2-B4C composite	A.K. and P.B. acknowledge support from MCI-UEFISCDI Romania through Core Program PC1-PN23080101/PC2-PN23080202~Solutii 33, and~PN-III-P1-1.1-TE-2021-0273/TE86/2022.	SCI REP-UK 13, 6915 http://dx.doi.org/10.1038/s41598-023-33135-w	2023
20	Coman, LG; Marcu, M; Acsente, T; Vizireanu, S; Satulu, V; Dinescu, G; Matei, E; Spataru, T; Spataru, N; Preda, L	Hybrid nanostructures based on vertically graphenes decorated with tungsten oxide nanoparticles for enhanced capacitive performance	This study was performed within the framework of the Electrochemical preparation and characterization of active materials with pre-determined features research project of the Ilie Murgulescu Institute of Physical Chemistry of the Romanian Academy. This work was supported by Romanian Ministry of Research, Innovation and Digitization under project-contract no.632 PED/2022 BIOPLASM, PN-III-P2-2.1-PED-20212559 within PNCDI III, Romanian National Core Program LAPLAS VII-contract no. 30N/2023 of National Institute for Lasers, Plasma and Radiation Physics and Project PC1-PN23080101 of the National Institute of Material Physics.	DIAM RELAT MATER 139, 110316 http://dx.doi.org/10.1016/j.diamond.2023.110316	2023
21	Oumezzine, M; Iuga, A; Enculescu, M; Galca, AC	Structural, Frequency and Temperature Dependent Dielectric Properties of Zn2+ Substituted Ni-Co Based Spinel Ferrite (ZnxNi0.8-xCo0.2Fe2O4)	The authors acknowledge the Tunisian Ministry of Higher Education and Scientific Research (Core program: 03-19PEJC03 project) for the financial support. NIMP authors acknowledge the Romanian Ministry of Research, Innovation and Digitalization in the framework of Core Program Project PC3-PN23080303.	ECS J SOLID STATE SC 12, 53008 http://dx.doi.org/10.1149/2162-8777/acd6bb	2023
22	Predoi, D; Balas, M; Badea, MA; Ciobanu, SC; Buton, N; Dinischiotu, A	Dextran-Coated Iron Oxide Nanoparticles Loaded with 5-Fluorouracil for Drug-Delivery Applications	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Project PC1-PN23080101.	NANOMATERIALS-BASEL 13, 1811 http://dx.doi.org/10.3390/nano13121811	2023
23	Circu, V; Ganea, CP; Secu, M; Manaila-Maximean, D; Marinescu, GC; Popescu, RG; Pasuk, I	Columnar Liquid Crystals of Copper(I) Complexes with Ionic Conductivity and Solid State Emission	This work has been partially funded by the project C1.2.PFE_CDI.2021-587/contract no.41PFE/30.12.2021. C.P.G, M.S., and I.P acknowledge the financial support of the Romanian Ministry of Research Innovation and Digitisation (MCI) through the project PC3-PN23080303.	MOLECULES 28, 4196 http://dx.doi.org/10.3390/molecules28104196	2023
24	Stepanova, A; Tite, T; Ivanenko, I; Enculescu, M; Radu, C; Culita, DC; Rostas, AM; Galca, AC	TiO2 Phase Ratio's Contribution to the Photocatalytic Activity	The authors acknowledge funding by the CoreProgramsgranted by the Romanian Ministry of Research, Innovation, and Digitizationthrough the projects PN23080303, 35PFE/2022, and PN23240103.	ACS OMEGA 8, 41664-41673 http://dx.doi.org/10.1021/acsomega.3c05890	2023
	Arpak, MC; Daglilar, S; Kalkandelen, C; Balescu, LM; Sasmazel, HT; Pasuk, I; Stan, GE; Durukan, K; Gunduz, O	Physico-chemical characterization and in vitro biological study of manganese doped β-tricalcium phosphate-based ceramics for bone regeneration applications	G.E.S. and L.M.B. are thankful for the financial support of the Romanian National Authority for Scientific Research and Innovation, CNCS-UEFISCDI, in the framework of PNIII-P1-1.1-TE-2019-0463 project (within PNCDI III), as well as to Core Program of the National Institute of Materials Physics within the National Research Development and Innovation Plan 2022-2027, carried out with the support of the Romanian Ministry of Research, Innovation and Digitalization under the project PC2-PN23080101.	J AUST CERAM SOC 59, 969-983 http://dx.doi.org/10.1007/s41779-023-00889-5	2023
25	Ostahie, B; Sticlet, D; Moca, CP; Dóra, B; Werner, MA; Asboth, JK; Zaránd, G	Multiparticle quantum walk: A dynamical probe of topological many-body excitations	This research is supported by UEFISCDI, under Project No. PN-III-P4-ID-PCE-2020-0277, under the project for funding the excellence, Contracts No. 29 PFE/30.12.2021, No. PN-III-P1-1.1-PD-2019-0595, and No. PN-III-P1-1.1-TE-2019-0423, by the Core Program of the National Institute of Materials Physics, granted by the Romanian MCID under Project No. PC2-PN23080202, and by the National Research, Development and Innovation Office NKFIH within the Quantum Technology National Excellence Program (Project No. 2017-1.2.1-NKP-2017-00001) , K134437, K142179, SNN139581, and the BME-Nanotechnology FIKP grant (BME FIKP-NAT) . M.A.W. has also been supported by the Hungarian Academy of Sciences through the Janos Bolyai Research Scholarship and by the NKP-22-5-BME-330 New National Excellence Program of the Ministry for Culture and Innovation from the source of the National Research, Development and Innovation Fund.	PHYS REV B 108, 35126 http://dx.doi.org/10.1103/PhysRevB.108.035126	2023

Lucrari publicate in anul 2024, cu multumiri la Programul Nucleu:

Nr	Autori	Titlu	Finantare	Jurnal	An
1	Borca, B	Advances in Organic Multiferroic Junctions	This work was funded by the Romanian Ministry of Research, Innovation and Digitalization through the projects PN-III-P2-2.1-PED-2021-0378 (contract nr. 575PED/2022) and the Core Program PC2-PN2308020.	COATINGS,14 https://dx.doi.org/10.3390/coatings14060682	2024
2	Mihalache, V	Magnetic behaviors of exchange-biased Fe(FM)-FeO(AFM)-ZnO nanocomposites of different iron concentrations prepared under non-identical conditions with annealing in a reducing atmosphere	The fee for open -access publication was supported by the project 35PFE/2021, funded by the Romanian Ministry of Research, Innovation and Digitization. This work was also supported by the Core Program of the National Institute of Materials Physics under Project PC2 PN23080202 of the Romanian Ministry of Research, Innovation and Digitization. The author gratefully thanks I. Pasuk (NIMP, Romania) for the Rietveld fitting. VM also acknowledge A. Leca (NIMP, Romania) for his experimental and technical support.	RESULTS IN PHYSICS,58 https://dx.doi.org/10.1016/j.rinp.2024.107469	2024
3	Pena, A; Radu, C	Floquet topological insulators with spin-orbit coupling	This work was supported by grants of the Ministry of Research, Innovation and Digitization through the Core Program PC2-PN23080202 within PNCDI 2022-2027.	PHYSICAL REVIEW B,109 https://dx.doi.org/10.1103/PhysRevB.109.075121	2024
4	Badica, P; Lorinczi, A	A Review on Preparation of Palladium Oxide Films	This research was funded by MCI-UEFISCDI Romania through Core Programs PC2-PN23080202 and PC3-PN23080303.	COATINGS,14 https://dx.doi.org/10.3390/coatings14101260	2024
5	Zaki, MY; Sava, F; Simandan, ID; Mihai, C; Velea, A	Structural and Compositional Analysis of CZTSSe Thin Films by Varying S/(S plus Se) Ratio	All the authors acknowledge the financial support from the Executive Unit for Financing Higher Education, Research, Development, and Innovation (UEFISCDI) within the framework of Project PN-III-P1-1.1-PD-2021-0240 (contract no. PD 41/2022) and the Romanian Ministry of Research, Innovation, and Digitalization for the Core Program of the National Institute of Materials Physics through Project PC3-PN23080303.	ENERGIES,17 https://dx.doi.org/10.3390/en17153684	2024
6	Ostahie, B; Aldea, A	Stacking model of a three-dimensional second-order topological insulator manifesting quantum anomalous Hall effect	We acknowledge financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian MCID under Project No. PC2-PN23080202. The fee for open-access publication was supported by Project No. 35PFE/2021, funded by the Romanian Ministry of Research, Innovation and Digitalization.	PHYSICAL REVIEW RESEARCH,6 https://dx.doi.org/10.1103/PhysRevResearch.6.023168	2024
7	Leote, RJB; Crisan, DN; Matei, E; Enculescu, I; Diculescu, VC	Palladium-Coated Submicron Electrospun Polymeric Fibers with Immobilized Uricase for Uric Acid Determination in Body Fluids	Financial support from the Romanian Executive Agency for Higher Education, Research, Development and Innovation Funding (UEFISCDI) through projects PN-III-P2-2.1-SOL-2021-2-0167, PN-III-P4-PCE-2021-1006, and from the Romanian Ministry of Research, Innovation, and Digitalization through Operational Programme Competitiveness 2014-2020, Project: NANOBIOSURF-SMIS 103528 and Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	ACS APPLIED POLYMER MATERIALS,6, pp+2274-2283 https://dx.doi.org/10.1021/acsapm.3c02811	2024
8	Assahsahi, I; Popescu, B	Structural, Magnetic, and Transport Properties of Ti(Fe,Re)2Sn Heusler Alloys	The authors acknowledge the Romanian Ministry of Research, Innovation and Digitalization for financial support through the Core Program PN23080303 (Contract No. 28N/12.01.2023). The authors would like to thank Dr. A. Galatanu for his support and for providing useful suggestions and interesting comments.	METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE,, pp+- https://dx.doi.org/10.1007/s11661-024-07619-x	2024
9	Secu, CE; Bartha, C; Radu, C; Secu, M	Crystallization processes of rare-earth doped GdF3 nanocrystals in silicate glass matrix: Dimorphism and photoluminescence properties	The authors acknowledge funding by the Core Program of the National Institute of Materials Physics (NIMP), granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303. One of the authors (CB) acknowledge the funding by the Romanian Ministry of Research and Innovation (MCI) through the grant PN-III-P2-2.1-PED-2021-2007 (contract no. 676 PED/2022) . The help of Dr Tedy Titte for the Raman spectroscopy measurements is acknowledged.	CERAMICS INTERNATIONAL,50, pp+37518-37524 https://dx.doi.org/10.1016/j.ceramint.2024.06.335	2024
10	Sava, F; Mihai, C; Buruiana, AT; Bocirnea, AE; Velea, A	Fabrication and Characterization of Fe-Doped SnSe Flakes Using Chemical Vapor Deposition	The authors gratefully acknowledge the financial support of the Executive Unit for the Financing of Higher Education, Research, Development and Innovation (UEFISCDI) in the framework of the M-ERA.NET 109/2019 (ERANET-M.-2D-SPIN-MEM) and the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	CRYSTALS,14 https://dx.doi.org/10.3390/cryst14090790	2024
11	Beregoi, M; Oprea, D; Bunea, MC; Enculescu, M; Enache, TA	Electrospun fibrillary scaffold for electrochemical cell biomarkers detection	Financial support given by Romanian Ministry of Research, Innovation, and Digitalization, CNCS-UEFISCDI, through projects PN-III-P4-ID-PCE-2020-1403 PNCDI III and National Research Council (CNCS) the Core Program Project PC1-PN23080101 is gratefully acknowledged.	MICROCHIMICA ACTA,191 https://dx.doi.org/10.1007/s00604-024-06523-w	2024
12	Acsente, T; Matei, E; Marascu, V; Bonciu, A; Satulu, V; Dinescu, G	Deposition of W Nanoparticles by Magnetron Sputtering Gas Aggregation Using Different Amounts of H2/Ar and Air Leaks	This work has been carried out within the framework of the EUROfusion Consortium, funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No. 101052200-EUROfusion). Views and opinions expressed are however those of the authors only and do not necessarily reflect those of the European Union or the European Commission. Neither the European Union nor the European Commission can be held responsible for them. Part of this research was supported (or financed) by the Romanian Ministry of Research, Innovation, and Digitalization under the Romanian National Core Program of the National Institute for Laser, Plasma, and Radiation Physics LAPLAS VII-contract no. 30N/2023 and of the National Institute of Materials Physics, Project PC1-PN23080101.	COATINGS,14 https://dx.doi.org/10.3390/coatings14080964	2024
13	Lungu, I; Patru, RE; Galca, AC; Pintilie, L; Potlog, T	DC current-voltage and impedance spectroscopy characterization of nCdS/pZnTe HJ (vol 14, 12955, 2024)	This article/publication is based upon work from COST Action OPERA - European Network for Innovative and Advanced Epitaxy - CA20116, supported by COST (European Cooperation in Science and Technology, www.cost. eu). Also, the authors thanked the Ministry of Education and Research of Republic of Moldova for financial support for grant #011209 NIMP and kindly acknowledge the financial support of the Romanian Ministry of Research, Innovation and Digitalization in the framework of the UEFISCDI PN-III-P4-ID-PCE-2020-0827 (contract no. PCE74/09.02.2021) and Core Program Project PC3-PN23080303.	SCIENTIFIC REPORTS,14 https://dx.doi.org/10.1038/s41598-024-66982-2	2024
14	Cioangher, M; Amarande, L; Stan, GE; Nedelcu, L; Pasuk, I; Leonat, L; Popa, AC; Miclea, LC; Savopol, T; Moisescu, MG; Tivig, I	Hindrances and solutions on the path towards adjoined barium titanate-hydroxyapatite ceramics with uncompromised piezoelectric and biological responses	The authors from the National Institute of Materials Physics (NIMP) are thankful to the Core Program within the National Research Development and Innovation Plan 2022-2027, carried out with the support of the Romanian Ministry of Research, Innovation and Digitalization under the project PC2-PN23080101. This research debuted in the framework of PN-III-P1-1.2-PCCDI-2017-0062 (contract no. 58) /component project no. 2, funded by the Romanian Ministry of Research and Innovation, CCCDI-UEFISCDI. The authors express their gratitude to Dr. Andrei Kuncser (from NIMP) for conducting the STEM-EDXS analyses.	CERAMICS INTERNATIONAL,50, pp+29711-29728 https://dx.doi.org/10.1016/j.ceramint.2024.05.268	2024
15	Lungu, I; Patru, RE; Galca, AC; Pintilie, L; Potlog, T	DC current-voltage and impedance spectroscopy characterization of nCdS/pZnTe HJ	This work was supported by the Ministry of Education and Research of Republic of Moldova, research grant #011209 and OPERA center dot COST ACTION CA20116 European Network for Innovative and Advanced Epitaxy. NIMP authors kindly acknowledge the financial support of the Romanian Ministry of Research, Innovation and Digitalization in the framework of the UEFISCDI PN-III-P4-ID-PCE-2020-0827 (contract no. PCE74/09.02.2021) and Core Program Project PC3-PN23080303.	SCIENTIFIC REPORTS,14 https://dx.doi.org/10.1038/s41598-024-63615-6	2024
16	Borca, B; Zandvliet, HJW	Image potential states of 2D materials	B.B. acknowledges the Romanian Ministry of Research, Innovation and Digitalization for funding through UEFISCDI of the project PN-III-P2-2.1-PED-2021-0378 (contract no. 575PED / 2022) and the Core Program PC2-PN2308020. H.J.W.Z. acknowledges NWO for financial support (grants 16PR3237 and 040.11.707) .	APPLIED MATERIALS TODAY,39 https://dx.doi.org/10.1016/j.apmt.2024.102304	2024
17	Popescu, DG; Nicolaev, A; Costescu, RM; Borcan, LE; Lungu, GA; Tache, CA; Husanu, MA; Teodorescu, CM	Spin asymmetry of O 2p-related states in SrTiO3(001)	This work was funded by the Core Program of the National Institute of Materials Physics under the Project PC2-PN23080202. All experiments were performed using the National Interest Setup 'System of complex XPS/ESCA installations and research using synchrotron radiation'.	PHYSICA SCRIPTA,99 https://dx.doi.org/10.1088/1402-4896/ad732c	2024
18	Secu, M; Secu, CE; Matei, E; Negrilla, C; Turchenko, V; Radu, C; Polosan, S	Structural and magneto-optical investigations of citrate sol-gel derived barium hexaferrite nanocrystalline powder	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization onder the Project PC2-PN23080202.	JOURNAL OF ALLOYS AND COMPOUNDS,983 https://dx.doi.org/10.1016/j.jallcom.2024.173897	2024
19	Simion, CE; Mihalcea, CG; Iacoban, AC; Dinu, IV; Predoi, D; Vlaicu, ID; Florea, OG; Stanoiu, A	Influence of Synthesis Method and Electrode Geometry on GHG-Sensing Properties of 5%Gd-Doped SnO2	This research was funded by the Ministry of Research, Innovation and Digitization CNCS-UEFISCDI through the project PN-III-P4-PCE-2021-0384 within PNCDI III and the Core Program within the National Research Development and Innovation Plan 2022-2027, carried out with the support of the Ministry of Research, Innovation and Digitization, project no. PC1-PN23080101. The contribution of Catalina G. Mihalcea (C.G.M.) to this work is part of the PhD "Nanostructured materials for gas sensing: correlations between functional, electronic and microstructural properties" supported by CERIC-ERIC.	CHEMOSENSORS,12 https://dx.doi.org/10.3390/chemosensors12080148	2024
20	Balas, M; Badea, MA; Ciobanu, SC; Piciu, F; Iconaru, SL; Dinischiotu, A; Predoi, D	Biocompatibility and Osteogenic Activity of Samarium-Doped Hydroxyapatite-Biomimetic Nanoceramics for Bone Regeneration Applications	This study is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	BIOMIMETICS,9 https://dx.doi.org/10.3390/biomimetics9060309	2024
21	Stavarache, I; Palade, C; Slav, A; Dascalescu, I; Lepadatu, AM; Trupina, L; Matei, E; Ciurea, ML; Stoica, T	Atomically Thin MoS2 Layers Selectively Grown on Mo Patterned Substrates for Field-Effect-Controlled Photosensors	This work was financially supported by a grant of the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN.111-P2-2.1-PED-2021-2457, as well as by NIMP Core Program Project PC2-PN23080202. We thank Dr. Gheorghe Aldica and Dr. Adrian Dinescu from IMT-Bucharest for useful discussions.	ACS APPLIED NANO MATERIALS,7, pp+5051-5062 https://dx.doi.org/10.1021/acsanm.3c05809	2024
22	Stanoiu, A; Vlaicu, ID; Iacoban, AC; Mihalcea, CG; Ghica, C; Florea, OG; Dinu, IV; Mercioniu, I; Simion, CE	Low traces of acetone detection with WO3-based chemical sensors	This work was carried out through the Core Program within the National Research Development and Innovation Plan 2022-2027, funded by the Romanian Ministry of Research, Innovation and Digitization, project no. PC1-PN23080101.The contribution of Catalina G. Mihalcea to this work is part of the Ph.D. "Nanostructured. materials for gas sensing: correlations between functional, electronic and microstructural properties" supported by CERIC-ERIC.r The contribution of Catalina G. Mihalcea to this work is part of the Ph.D. "Nanostructured. materials for gas sensing: correlations between functional, electronic and microstructural properties" supported by CERIC-ERIC.	MATERIALS CHEMISTRY AND PHYSICS,316 https://dx.doi.org/10.1016/j.matchemphys.2024.129105	2024
23	Stavarache, I; Palade, C; Maraloiu, VA; Teodorescu, VS; Stoica, T; Ciurea, ML	Annealing Effects on the Charging-Discharging Mechanism in Trilayer Al2O3/Ge/Al2O3 Memory Structures	The authors kindly acknowledge the financial support of the Romanian Ministry of Research, Innovation and Digitalization in the framework of the PN-III-P4-ID-PCE-2020-1673 (contract no. IDEI191/2021) and Core Program PC2-PN23080202.	ACS APPLIED ELECTRONIC MATERIALS,6, pp+978-986 https://dx.doi.org/10.1021/acsaelm.3c01454	2024
24	Velea, A; Buruiana, AT; Mihai, C; Matei, E; Tite, T; Sava, F	Abundant Catalytic Edge Sites in Few-Layer Horizontally Aligned MoS2 Nanosheets Grown by Space-Confined Chemical Vapor Deposition	This research was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303 and contract no. 21N/2019, additional act 11/2022. The authors kindly acknowledge the financial support of the Executive Unit for the Financing of Higher Education, Research, Development and Innovation (UEFISCDI) in the framework of the M-ERA.NET 109/2019 (ERANET-M.-2D-SPIN-MEM).	CRYSTALS,14 https://dx.doi.org/10.3390/cryst14060551	2024
25	Iancu, AC; Apostol, NG; Nicolaev, A; Abramiuc, LE; Chirila, CF; Popescu, DG; Teodorescu, CM	Molecular adsorption-desorption of carbon monoxide on ferroelectric BaTiO3(001)	This work was funded by the Core Program of the National Institute of Materials Physics, under the project PC1-PN23080101. All experiments were performed using the National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation". DGP acknowledges the financial support of the Ministry of Research, Innovation and Digitization, CNCS - UEFISCDI, project number PN-III-P1-1.1-TE-2021-0136.	MATERIALS ADVANCES,5, pp+- https://dx.doi.org/10.1039/d4ma00389f	2024
26	Buruiana, AT; Bocirnea, AE; Sava, F; Matei, E; Tite, T; Mariana, A; Simandan, ID; Galca, AC; Velea, A	Two-step process for the fabrication of direct FLG\MoS2 heterostructures	The authors kindly acknowledge the financial support provided by the Executive Unit for Financing Higher Education Research Development and Innovation through the M-ERA.NET 109/2019 (ERANET-M.- 2D-SPIN-MEM) project and the Romanian Ministry of Research, Innovation and Digitization under the framework of the Core Program thorough project PC3-PN23080303.	MATERIALS CHEMISTRY AND PHYSICS,322 https://dx.doi.org/10.1016/j.matchemphys.2024.129530	2024
27	Mitran, G; Pavel, OD; Urda, A; Mirea, AG; Neatu, F; Neatu, S; Florea, M	Influence of molybdenum incorporation on the structural, chemical, and catalytic properties of iron cobaltite and cobalt ferrite catalysts	This work was supported by a grant from the Romanian Ministry of Education and Research, CNCS - UEFISCDI, project number PNIII-P4-ID-PCE-2020-0580, within PNCDI III. FN, MF and SN acknowledge the Ministry of Research, Innovation and Digitization, CNCS - UEFISCDI for financial support through project no. PN-III-P4-ID-ERC-2021-0007 and the Core Program 2023 - 2026 (contract PC3-PN23080303) .	APPLIED CATALYSIS A-GENERAL,679 https://dx.doi.org/10.1016/j.apcata.2024.119739	2024
28	Lepadatu, AM; Stavarache, I; Palade, C; Slav, A; Dascalescu, I; Cojocaru, O; Maraloiu, VA; Teodorescu, VS; Stoica, T; Ciurea, ML	Enhancing Short-Wave Infrared Photosensitivity of SiGe Nanocrystals-Based Films through Embedding Matrix-Induced Passivation, Stress, and Nanocrystallization	This research was funded by CNCS - UEFISCDI, projects no. PN-III-P1-1.1-TE-2021-1491 and PN-III-P4-ID-PCE-2020-1673 within PNCDI III and by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC2-PN23080202.	JOURNAL OF PHYSICAL CHEMISTRY C,128, pp+4119-4142 https://dx.doi.org/10.1021/acs.jpcc.3c06996	2024
29	Joita, AC; Ghica, D; Stefan, M; Bulat, S; Pantia, AI	Electron paramagnetic resonance signature of rock-forming blue quartz from the Albesti (Romania) granite	The authors acknowledge the Central European Research Infrastructure Consortium (CERIC-ERIC) for access to EPR experimental facilities at NIMP (proposal no. 20222020). Constructive reviews of Yuanming Pan, an anonymous expert and Editor-in-Chief Lutz Nasdala are gratefully acknowledged. AJC, DG, MS and SB acknowledge funding through the contract POC 332/390 008/29.12.2020-SMIS 109 522 and the Core Program of the National Institute of Materials Physics (NIMP), Project PC1-PN23080101 granted by the Ministry of Research, Innovation and Digitization.	MINERALOGY AND PETROLOGY,118, pp+449-459 https://dx.doi.org/10.1007/s00710-024-00868-z	2024
30	Beregoi, M; Enache, TA; Oprea, D; Enculescu, M; Ciobotaru, IC; Busuioc, C; Enculescu, I	PEDOT:PSS based electrospun nanofibres used as trigger for fibroblasts differentiation	This work was supported by the Romanian Ministry of Reseach, Innovation and Digitalization through the Projects PC1-PN23080101, PN-III-P4-ID-PCE-2020-1403 and PN-III-P2-2.1-PED-2019-1459. Mihaela Beregoi wants to acknowledge the Project PN-III-P2-2.1-PD-2019-1066.	SMART MATERIALS AND STRUCTURES,33 https://dx.doi.org/10.1088/1361-665X/ad10bf	2024
31	Apostol, M; Enache, A; Diculescu, V; Tite, T; Onea, M; Enculescu, I; Matei, E; Andronescu, E	GRAPHENE FOR ELECTRONIC DEVICES - SYNTHESIS AND CHARACTERIZATION	This work was supported by the grant POCU/993/6/13 -153178, co -financed by the European Social Fund within the Sectorial Operational Program Human Capital 2014 - 2020 and by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC1-PN23080101.	UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES B-CHEMISTRY AND MATERIALS SCIENCE,86, pp+- https://dx.doi.org/	2024
32	Gheorghe, C; Hau, S; Gheorghe, L; Broasca, A; Greculeasa, M; Voicu, F; Stanciu, G; Enculescu, M	Growth and spectroscopic properties of Ca3(Ta,Ga)5O12:Pr3+ single crystal as a promising new laser material in the visible domain	This work was supported by the Romanian Ministry of Research, Innovation and Digitalization through the project PN-III-P1-1.1-PD- 2019-0665, grant agreement PD 86/2020 and program NUCLEU LAP-LAS VII, contract number 30 N/2023. Dr. Monica Enculescu acknowledges the financial support from the Romanian Ministry of Research, Innovation and Digitalization through Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	OPTICAL MATERIALS,150 https://dx.doi.org/10.1016/j.optmat.2024.115286	2024
33	Kumar, MU; Swetha, R; Sahana, BV; Kuri, RS; Popescu, B; Assahsahi, I; Kumari, L	Possible reduction of lattice thermal conductivity in n-type CoSb2.875Te0.125 skutterudite originating from collaborative adjustment between Indium micro and α-WC nano inclusions	This work was supported by VGST GoK K-FIST (Level 1) under Grant No. VGST/GRD-552-/2016-17/2017-18/ 2020-21 awarded to Dr. LK. BP and IA acknowledge the Romanian Ministry of Research, Innovation and Digitalization for financial support through the Core Program PN23080303 (contract No. 28N/12.01.2023).	JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS,35 https://dx.doi.org/10.1007/s10854-024-13713-y	2024
34	Rasoga, O; Yonkeu, ALD; Breazu, C; Socol, M; Preda, N; Stanculescu, F; Stanculescu, A; Iwuoha, E	Organic Heterostructures with Dendrimer Based Mixed Layer for Electronic Applications	This research was funded by the Romanian Ministry of Research, Innovation and Digitization through the National Core Founding Program Project PN23080303 (contract no. 28N/2023), PN-III-P2-2.1-PED-2021-3165 contract no. 590/2022, and the National Research Foundation (NRF) of South Africa, grant no. UID: 85012.	MOLECULES,29 https://dx.doi.org/10.3390/molecules29174155	2024
35	Predoi, D; Talu, S; Ciobanu, SC; Iconaru, SL; Matos, RS; da Fonseca, HD	Exploring the physicochemical traits, antifungal capabilities, and 3D spatial complexity of hydroxyapatite with Ag+-Mg2+substitution in the biocomposite thin films	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101. Part of the studies were supported by the Romanian Ministry of Research and Innovation through the PN-III-P1-1.2-PCCDI-2017-0134, Contract No. 23PCCDI/2018. The authors also thank CAPES (Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior - Codigo financeiro 001) and FAPEAM (Fundacao de Amparo a Pesquisa do Estado do Amazonas, EDITAL N. 010/2021-CT&I AREAS PRIORITARIAS and EDITAL N. 013/2022-PRODUTIVIDADE EM CT&I) for the financial support, as well as the use of the infrastructure of the Analytical Center of Universidade Federal do Amazonas (UFAM) . HDFF acknowledges funding support from CNPq Processo 306210/2022-3.	MICRON,184 https://dx.doi.org/10.1016/j.micron.2024.103661	2024
36	Mihalcea, CG; Stefan, M; Ghica, C; Florea, OG; Stanoiu, A; Simion, CE; Somacescu, S; Ghica, D	In-depth insight into the structural properties of nanoparticulate NiO for CO sensing	through the Core Program of the National Institute of Materials Physics, Project PC1-PN23080101. The authors acknowledge the CERIC-ERIC Consortium for access to EPR experimental facilities at NIMP (pro-posal no. 20227005) . DG and MS acknowledge funding through contract POC 332/390 008/29.12.2020-SMIS 109 522. The contribution of C.G. M. to this work is part of the PhD "Nanostructured materials for gas sensing: correlations between functional, electronic and microstructural properties" supported by CERIC-ERIC.	APPLIED SURFACE SCIENCE,651 https://dx.doi.org/10.1016/j.apsusc.2023.159252	2024
37	El Mahboub, E; El Khouja, O; Bocirnea, AE; Zakaria, S; Galca, AC; Mansori, M; El Hichou, A	Investigation of kesterite to stannite phase transition and band gap engineering in Cu2Zn1-xCoxSnS4 thin films prepared by sol-gel spin coating	NIMP authors acknowledge funding from Romanian Ministry of Research, Innovation and Digitalization through the Core Project PC3-PN23080303 and PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) project. Authors acknowledge also the COST Action Research and International Networking project "Emerging Inorganic Chalcogenides for Photovoltaics (RENEW-PV) ," CA21148, supported by COST (European Cooperation in Science and Technology). The XPS measurements were performed using the Romanian National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	APPLIED SURFACE SCIENCE,672 https://dx.doi.org/10.1016/j.apsusc.2024.160848	2024
38	Buruiana, AT; Zaki, MY; Sava, F; Velea, A; Marin, M; Ispas, E; Petre, A; Simion, CA; Luca, A	EFFLORESCENT COMPOUNDS - CHARACTERIZATION AND INTERACTIONS WITH LITHIC MATERIAL. INSIGHTS FROM THE EXTERIOR WALL OF THE EPISCOPAL CATHEDRAL - CURTEA DE ARGES	The financial support by PC3-PN23080303, PN 2320201 projects, and by IOSIN Guvernamental Funds is gratefully acknowledged. Many thanks to Mircea Baciu for the opportunity to obtain the samples and for advices. This work is dedicated in memoriam to Professor Marin Seclaman, who never stopped being a source of inspiration and learning for us.	ROMANIAN REPORTS IN PHYSICS,76 https://dx.doi.org/10.59277/RomRepPhys.2024.76.803	2024
39	Chirica, IM; Mirea, AG; Suteu, T; Kuncser, A; Neatu, S; Florea, M; Barsoum, MW; Neatu, F	Acid-Modified, Ti3C2-Based MXene as Catalysts for Upcycling Polyethylene Terephthalate	This work was supported by grants from the Ministry of Research, Innovation, and Digitization, CNCSyUEFISCDI, project number PN-III-P1-1.1-TE-2019-1969. Financial support from the Romanian Ministry of Research, Innovation, and Digitization through the Core Program 2023-2026 (contract PC3-PN23080303) is gratefully acknowledged. This work was partially funded by NSF (DMR-2211319).	ACS SUSTAINABLE CHEMISTRY & ENGINEERING,12, pp+9766-9776 https://dx.doi.org/10.1021/acssuschemeng.4c01920	2024
40	Alexandru-Dinu, A; Locovei, C; Bartha, C; Grigoroscuta, MA; Burdusel, M; Kuncser, A; Palade, P; Schinteie, G; Iacob, N; Lu, W; Batalu, D; Badica, P; Kuncser, V	Microstructure and coupling mechanisms in MnBi-FeSiB nanocomposites obtained by spark plasma sintering	Authors acknowledge financial support from UEFISCDI, Romania through Core project PC2 PN23080202 and through the grant PN-III-P2-2.1-PED-2021-2007 (contract no. 676 PED/2022).	SCIENTIFIC REPORTS,14 https://dx.doi.org/10.1038/s41598-024-67353-7	2024
41	Layachi, OA; Moujib, A; El Khouja, O; Galca, AC; Boudouma, A; Azmi, S; Nini, M; Nohair, M; Khoumri, E	Electrodeposition mechanism of Cu 2 CoSnS 4 thin films onto FTO-coated glass: Effect of some additives	We would like to express our gratitude to the Ministry of Higher Education, Scientific Research, and Professional Training (ENSSUP) CNRST for funding this work as part of the project in the priority areas of scientific research and development. NIMP authors acknowledge funding from the Romanian Ministry of Research, Innovation and Digitization through the PC3- PN23080303 and PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) projects.	JOURNAL OF ELECTROANALYTICAL CHEMISTRY,959 https://dx.doi.org/10.1016/j.jelechem.2024.118177	2024
42	Iacoban, AC; Haldar, T; Neatu, F; Chirica, IM; Mirea, AG; Neatu, S; Barsoum, MW; Florea, M	Catalytic behaviour of CuOx and VOx on Ti3SiC2 support for direct oxidation of methane	This work was supported by grants of the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN-III-P4-PCE-2021-1461 and PN-III-P4-ID-ERC-2021-0007, all within PNCD IIII. Financial support from Romanian Ministry of Research, Innovation and Digitization through the Core Program 2023-2026 (contract PC3-PN23080303) is gratefully acknowledged. This work was also supported by NSF (DMR-2211319).	CATALYSIS TODAY,443 https://dx.doi.org/10.1016/j.cattod.2024.114959	2025
43	Patru, RE; Stanciu, CA; Surdu, VA; Soare, EM; Trusca, RD; Vasile, BS; Nicoara, AI; Trupina, L; Pasuk, I; Botea, M; Horchidan, N; Mitoseriu, L; Pintilie, L; Pintilie, I; Ianculescu, AC	Downscaling grain size toward the nanometre range - A key-factor for tuning the crystalline structure, phase transitions, dielectric and ferroelectric behaviour in Ba 0.8 Sr 0.2 TiO 3 ceramics	R.P. and A.C.I. acknowledge that this work was supported by a grant of the Romanian Ministry of Research, Innovation and Digitalization, CNCS-UEFISCDI, project number PN-III-P1-1.1-PD-2019-0739. L.T., M. B., L.P. and I.P. acknowledge the financial support from the Core Pro- gram of the National Institute of Materials Physics 2023-2026, Project PC2-PN23080202, funded by the Romanian Ministry of Research, Innovation and Digitalization.	PROGRESS IN SOLID STATE CHEMISTRY,74 https://dx.doi.org/10.1016/j.progsolidstchem.2024.100457	2024
44	Ciobanu, CS; Predoi, D; Iconaru, SL; Predoi, MV; Ghegoiu, L; Buton, N; Motelica-Heino, M	Copper doped hydroxyapatite nanocomposite thin films: synthesis, physico-chemical and biological evaluation	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.Also, this research was supported by Contract No. T-IS 251801/04.05.2018 and Scientific Research Contract Nr.1/4.06.2020.	BIOMETALS,, pp+- https://dx.doi.org/10.1007/s10534-024-00620-2	2024
45	Predoi, D; Ciobanu, SC; Iconaru, SL; Talu, S; Ghegoiu, L; Matos, RS; da Fonseca, HD; Trusca, R	New Physico-Chemical Analysis of Magnesium-Doped Hydroxyapatite in Dextran Matrix Nanocomposites	This work was partially supported by the Romanian Ministry of Research and Innovation through the PN-III-P2-2.1-PED-2019-0868, contract number 467PEDy2020 and by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101. Also, this research was supported by Contract No. T-IS 251801/04.05.2018 and Scientific Research Contract Nr.1/4.06.2020. The authors also thank CAPES (Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior-Codigo financeiro 001) and FAPEAM (Fundacao de Amparoa Pesquisa do Estado do Amazonas, EDITAL N. 010/2021 - CT & I & Aacute;REAS PRIORIT & Aacute;RIAS and EDITAL N. 013/2022-PRODUTIVIDADE EM CT & I) for the financial support, as well as the use of the infrastructure of the Analytical Center of Universidade Federal do Amazonas (UFAM). HDFF acknowledges funding support from CNPq Processo 306210/2022-3.	POLYMERS,16 https://dx.doi.org/10.3390/polym16010125	2024
46	Sultan, MT; Stavarache, I; Manolescu, A; Arnalds, UB; Teodorescu, VS; Svavarsson, HG; Ingvarsson, S; Ciurea, ML	Optimizing SiGe-SiO2 Visible-Short-Wave Infrared Photoresponse by Modulating Interplay Between Strain and Defects Through Annealing	This work was funded by the Icelandic Research Fund, grant nos. 218029-051 and 207111-051, and by Romanian Ministry of Research, Innovation and Digitalization in the framework of PN-III-P4-ID-PCE-2020-1673 (contract no. IDEI191/2021), PN-III-P1-1.1-TE-2021-1491 (TE71/2022), and Core Program PC2-PN23080202.	ADVANCED PHOTONICS RESEARCH,5, pp+- https://dx.doi.org/10.1002/adpr.202300316	2024
47	Besleaga, C; Tomulescu, AG; Zgura, I; Stepanova, A; Galca, AC; Laafar, S; Zorila, FL; Alexandru, M; Pintilie, I; Iliescu, M	Reticulated mesoporous TiO2 scaffold for self-cleaning surfaces	This work was supported with funding by UEFISCDI, PN-III-CERC-CO-PTE-3-2021, 100PTE, "Technology for windows covered with nanostructured layers having antibacterial and self-cleaning properties" and the Core Program of the National Institute of Materials Physics within the National Research Development and Innovation Plan 2022-2027, carried out with the support of the Romanian Ministry of Research, Innovation and Digitalization under the project PC1-PN23080101. Dr. M. Alexandru and Dr. F.L. Zorila acknowledge the financial support from the Romanian Research, Development, and Innovation Ministry under project PN23210301. The authors thank Dr. Lucia Leonat for performing the FE-SEM analyses.	CERAMICS INTERNATIONAL,50, pp+42264-42275 https://dx.doi.org/10.1016/j.ceramint.2024.08.072	2024
48	Marinas, IC; Oprea, E; Gaboreanu, DM; Matei, E; Nedelcu, L; Zgura, I; Angheloiu, M; Chifiriuc, MC	Antimicrobial and Antioxidant Properties of Polyvinyl Alcohol Biocomposite Films Containing Ferulic Acid and Cellulose Extracted from Robinia Pseudoacacia Pods	The authors would like to thank for financial support from the Research Institute of the University of Bucharest (by the O.I.M. under Grant ICUB 20968/30.12.2020) and the Romanian Ministry of Research, Innovation, and Digitization under Core Program of the National Institute of Materials Physics (PN23080303 and PC1-PN23080101). We acknowledge the support of the project CNFIS-FDI-2024-F-0484 INOVEX: Supporting the Development of New Competencies and Innovative Tools for Excellence in Interdisciplinary Research at the University of Bucharest.	JOURNAL OF NATURAL FIBERS,21 https://dx.doi.org/10.1080/15440478.2024.2355297	2024
49	Goncearenco, E; Morjan, IP; Fleaca, C; Dutu, E; Criveanu, A; Viespe, C; Galca, AC; Maraloiu, AV; Stan, MS; Fort, CI; Scarisoreanu, M	The Influence of SnO2 and Noble Metals on the Properties of TiO2 for Environmental Sustainability	This research was supported (or financed) by the Romanian Ministry of Research, Innovation and Digitalization under Romanian National Core Program LAPLAS VIIcontract no.30N/2023 and CNCS-UEFISCDI, contract number 31TE/2022 Project. NIMP authors acknowledge funding from the Romanian Ministry of Research, Innovation and Digitization through the Core project PC3-PN23080303.	SUSTAINABILITY,16 https://dx.doi.org/10.3390/su16072904	2024
50	Cimpeanu, C; Predoi, D; Ciobanu, CS; Iconaru, SL; Rokosz, K; Predoi, MV; Raaen, S; Badea, ML	Development of Novel Biocomposites with Antimicrobial-Activity-Based Magnesium-Doped Hydroxyapatite with Amoxicillin	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through Project PC1-PN23080101.	ANTIBIOTICS-BASEL,13 https://dx.doi.org/10.3390/antibiotics13100963	2024
51	Mighri, Z; Yildirim, ID; Leonat, LN; El Khouja, O; Erdem, E; Nasri, H; Galca, AC; Rostas, AM	Hybrid supercapacitors based on X-site Ba(II) ions substituted by Sr(II) in Langbeinite-type phosphates	<STRONG>Z. </STRONG>M. acknowledges the receipt of the AF-106-23-01 grant financed by Abdus Salam International Centre for Theoretical Physics, Trieste, Italy, from the Centre International de Formation et de Recherche Avancees en Physique, a subsidiary of National Institute of Materials Physics, Magurele, Romania. UM authors gratefully acknowledge Tunisia's Ministry of Higher Education and Scientific Research. NIMP authors acknowledge the Romanian Ministry of Research, Innovation, and Digitalization's financial support in the Core Program Project PC3-PN23080303 framework. A.M.R. gratefully acknowledges the financial support of MCID through the Core Program within the National Research Development and Innovation Plan 2022-2027, carried out with the support of MCID, project no. 27N/03.01.2023, component project code PN 23 24 01 03.	MATERIALIA,36 https://dx.doi.org/10.1016/j.mtla.2024.102147	2024
52	Nguyen, KG; Hus, M; Baragau, IA; Puccinelli, E; Bowen, J; Heil, T; Nicolaev, A; Andrews, D; Sajjad, MT; Dunn, S; Kellici, S	Controlling the optoelectronic properties of nitrogen-doped carbon quantum dots using biomass-derived precursors in a continuous flow system	K.G.N., S.K. and M.T.S acknowledge the financial support provided by London South Bank University. The authors thank Dr Shaoliang Guan for his support with the UPS data collection which was performed at the EPSRC National Facility for XPS ("HarwellXPS") , operated by Cardiff University and UCL, under Contract No. PR16195. I.A.B. and A.N. would like to acknowledge the funding through the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	CARBON,230 https://dx.doi.org/10.1016/j.carbon.2024.119623	2024
53	de Medeiros, SASL; de Oliveira, ALM; Duarte, TM; Kennedy, BJ; Rostas, AM; Negrila, CC; Galca, AC; Maia, AD; Sambrano, JR; Dantas, MC; Farias, AF; dos Santos, IMG	α-MoO3 Micro- and Nanoparticles as Catalysts for Biofuel Production	This work was supported by the Brazilian agencies CNPq/ MCTIC (Grant 408008/2022-9 and Edital 018/2022), CTINFRA/FINEP/MCTIC, PRONEX/FAPESQ/CNPQ (Grant 012/2019), and CAPES/MEC (finance code 001). A.L.M.O. thanks Paraiba State Research Foundation ~FAPESQ/PB (Grants 1975/ 2022-FAPESQ and 0012/ 2019- FAPESQ/ CNPq). B.J.K. acknowledges support of the Australian Research Council. A.M.R. greatly acknowledges the Romanian Ministry of Research, Innovation, and Digitalization, Core Program Project 27N/03.01.2023. A.C.G. and C.C.N. also thank the Romanian Ministry of Research, Innovation, and Digitalization, Core Program Project PC3-PN23080303.	ACS APPLIED NANO MATERIALS,, pp+- https://dx.doi.org/10.1021/acsanm.4c01239	2024
54	Neacsu, A; Chihaia, V; Bucuresteanu, R; Ficai, A; Trusca, RD; Surdu, VA; Nicolaev, A; Cojocaru, B; Ionita, M; Calinescu, I; Parvulescu, V; Ditu, LM	Physicochemical Characterization of Ca- and Cu-Decorated TiO2 Microparticles and Investigation of Their Antimicrobial Properties	This work was funded by the Core Program of the National Institute of Material Physics, under the project PC2-PN23080202.	MATERIALS,17 https://dx.doi.org/10.3390/ma17184483	2024
55	Kadari, AS; Ech-Chergui, AN; Ghediya, PR; Guendouz, A; Guezzoul, M; El Khouja, O; Bocirnea, AE; Driss-Khodja, K; Amrani, B; Galca, AC	Growth and optimization of spray coated Cu 2 BaSnS 4 thin films for solar photovoltaic application	A.S.K. acknowledges the Romanian Ministry of Foreign Affairs and Agence Universitaire de la Francophonie for the Eugen Ionescu research scholarship at NIMP. A.N.E.-C. acknowledges PRFU project N B00L02UN460120220001 supported by Belhadj Bouchaib Ain- Temouchenet University. NIMP authors acknowledge funding from the Romanian Ministry of Research, Innovation and Digitalization through the Core Project PC3-PN23080303 and PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) project. Authors acknowledge the COST Action Research and International Networking project "Emerging Inorganic Chalcogenides for Photovoltaics (RENEW -PV) ," CA21148, supported by COST (European Cooperation in Science and Technology) . The XPS measurements were performed using the Romanian National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	MATERIALIA,36 https://dx.doi.org/10.1016/j.mtla.2024.102178	2024
56	Shlapa, Y; Siposova, K; Sarnatskaya, V; Drajnova, M; Silvestre-Albero, J; Lykhova, O; Maraloiu, VA; Solopan, SO; Molcan, M; Musatov, A; Belous, A	Bioactive Carbon@CeO2 Composites as Efficient Antioxidants with Antiamyloid and Radioprotective Potentials	This work was sponsored by the NATO Science for Peace and Security Programme under grant [G5683] and partially supported by grants no 0124U002212 NAS of Ukraine, SK-TW Azcai, APVV 19-324. We thank Dagmar Sedlakova (Institute of Experimental Physics, SAS, Kosice, Slovakia) for her technical assistance. V.A.M. acknowledges funding through contract Core Program, component project PN23080101, funded by Romanian Ministry of Research, Innovation and Digitization. J.S.A. acknowledges financial support from MCIN (project PID2022-142960OB-C21) and Conselleria de Innovacion, Universidades, Ciencia y Sociedad Digital, Generalitat Valenciana (project CIPROM/2021/022).	ACS APPLIED BIO MATERIALS,7, pp+6749-6767 https://dx.doi.org/10.1021/acsabm.4c00912	2024
57	Ciobanu, CS; Predoi, D; Iconaru, SL; Predoi, MV; Rokosz, K; Raaen, S; Negrila, CC; Buton, N; Ghegoiu, L; Badea, ML	Physico-Chemical and Biological Features of Fluorine-Substituted Hydroxyapatite Suspensions	This research was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	MATERIALS,17 https://dx.doi.org/10.3390/ma17143404	2024
58	Mughnetsyan, V; Gudmundsson, V; Abdullah, NR; Tang, CS; Moldoveanu, V; Manolescu, A	Magnetic Properties of A Cavity-Embedded Square Lattice of Quantum Dots or Antidots	This work was financially supported by the Research Fund of the University of Iceland, and the Icelandic Infrastructure Fund. The computations were performed on resources provided by the Icelandic High Performance Computing Center at the University of Iceland. V. M. and V.G. acknowledged support by the Armenian State Committee of Science (grant No 21SCG-1C012). V. M. acknowledged support by the Armenian State Committee of Science (grant No 21T-1C247). V. M. acknowledged financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC2-PN23080202.	ANNALEN DER PHYSIK,536, pp+- https://dx.doi.org/10.1002/andp.202300274	2024
59	Predoi, D; Iconaru, SL; Ciobanu, SC; Predoi, SA; Buton, N; Ramos, GQ; Fonseca, HDD; Fonseca; Matos, RS; Talu, ST	Synthesis, characterization, and antifungal properties of chrome-doped hydroxyapatite thin films	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1- PN23080101. Also, this research was supported by Contract No. T-IS 251801/May 04, 2018 and Scientific Research Contract Nr.1/June 4, 2020	MATERIALS CHEMISTRY AND PHYSICS,324 https://dx.doi.org/10.1016/j.matchemphys.2024.129690	2024
60	Mino, L; Bonino, V; Alessio, A; Picollo, F; Kuncser, A; Mercioniu, I; Vlaicu, AM; Badica, P; Brescia, R; Fretto, M; Goss, K; Dittmann, R; Truccato, M	Improving the control of the electroforming process in oxide-based memristive devices by X-ray nanopatterning	The authors thank the European Synchrotron Radiation Facility (ESRF) for allocation of beamtime at the beamline ID16B, for AFM support at the Partnership for Soft Condensed Matter (PSCM), and for the kind availability of all its staff. L. M. acknowledges the support from the Project CH4.0 under the MUR program "Dipartimenti di Eccellenza 2023-2027" (CUP: D13C22003520001). P. B., I. M., and A. K. acknowledge the support from the Ministry of Research, Innovation and Digitalization through Core Program PC1-PN23080101 and PC2-PN23080101. R. D. and K. G. acknowledge the grant SFB 917 "Nanoswitches" of the German Science Foundation (DFG) for funding.	JOURNAL OF MATERIALS CHEMISTRY C,12, pp+11127-11132 https://dx.doi.org/10.1039/d4tc01815j	2024
61	Nguyen, KG; Hus, M; Baragau, IA; Bowen, J; Heil, T; Nicolaev, A; Abramiuc, LE; Sapelkin, A; Sajjad, MT; Kellici, S	Engineering Nitrogen-Doped Carbon Quantum Dots: Tailoring Optical and Chemical Properties through Selection of Nitrogen Precursors	K.N.G., S.K., and M.T.S. acknowledge the financial support provided by London South Bank University. The authors thank Dr Shaoliang Guan for his support with the UPS data collection which was performed at the EPSRC National Facility for XPS ("HarwellXPS"), operated by Cardiff University and UCL, under Contract No. PR16195. M.H. appreciates financial support from the Slovenian Research Agency (ARRS) through project funding N1-0303 and J7-4638, core funding P2-0421, and infrastructure funding I0-0039. I.A.B., L.E.A., and A.N. would like to acknowledge the funding through the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	SMALL,20, pp+- https://dx.doi.org/10.1002/smll.202310587	2024
62	Acosta, AC; Arias, CA; Biller, P; Wittig, NK; Baragau, IA; Alhnidi, MJ; Ravenni, G; Sárossy, Z; Benedini, L; Abramiuc, LE; Popescu, DG; Negassa, W; Marulanda, VF; Müller-Stöver, DS; Brix, H	Hydrothermal carbonization and pyrolysis in wetland engineering: Carbon sequestration, phosphorus recovery, and structural characterization of willow-based chars with X-ray μ-computed tomography	Andres C. Acosta thanks Aidan Mark Smith for the kind tutorship during HTC experiments and acknowledges part of the funding through the Ministry of Science and Technology of Colombia grant no.885. Use of the Novo Nordisk Foundation research infrastructure AXIA (grant NNF19OC0055801) is gratefully acknowledged. The European Commission supported this research through grant no.821410 (PAVITR project) and LIFE INTEXT (LIFE18 ENV/ES/000233). Ioan-Alexandru Baragau, Laura Elena Abramiuc, and Dana Georgeta Popescu acknowledge the funding through the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization; Project PC3-PN23080303. Muhammad Jamal Alhnidi acknowledges the funding through German Research Fundation (DFG) - 328017493/GRK 2366 (Sino-German International Research Training Group AMAIZE-P).	CHEMICAL ENGINEERING JOURNAL,492 https://dx.doi.org/10.1016/j.cej.2024.151916	2024
63	Gudmundsson, V; Mughnetsyan, V; Goan, HS; Chai, JD; Abdullah, NR; Tang, CS; Moldoveanu, V; Manolescu, A	Magneto-optical properties of a quantum dot array interacting with a far-infrared photon mode of a cylindrical cavity	This work was financially supported by the Research Fund of the University of Iceland and the Icelandic Infrastructure Fund. The computations were performed on resources provided by the Icelandic High Performance Computing Center at the University of Iceland. V.M. and V.G. acknowledge support by the Higher Education and Science Committee of Armenia (Grant No. 21SCG-1C012) . V.G. acknowledges support for his visit to the National Taiwan University from the National Science and Technology Council, Taiwan under Grants No. NSTC 113-2811-M-002-001 and No. NSTC 112-2119-M-002-014. H.-S.G. acknowledges support from the National Science and Technology Council, Taiwan under Grants No. NSTC 112-2119-M-002-014, No. NSTC 111- 2119-M-002-007, and No. NSTC 111-2627-M-002-001, and from the National Taiwan University under Grants No. NTU-CC-112L893404 and No. NTU-CC-113L891604. H.-S.G. is also grateful for the support from the Center for Advanced Computing and Imaging in Biomedicine (NTU-112L900702) through The Featured Areas Research Center Program within the framework of the Higher Education Sprout Project by the Ministry of Education (MOE), Taiwan, and support from the Physics Division, National Center for Theoretical Sciences, Taiwan. J.-D.C. acknowledges support from the National Science and Technology Council, Taiwan under Grant No. MOST110-2112-M-002-045-MY3. V.M. acknowledges financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project No. PC2-PN23080202.	PHYSICAL REVIEW B,109 https://dx.doi.org/10.1103/PhysRevB.109.235306	2024
64	Benali, Y; Predoi, D; Rokosz, K; Ciobanu, CS; Iconaru, SL; Raaen, S; Negrila, CC; Cimpeanu, C; Trusca, R; Ghegoiu, L; Bleotu, C; Marinas, IC; Stan, M; Boughzala, K	Physico-Chemical Properties of Copper-Doped Hydroxyapatite Coatings Obtained by Vacuum Deposition Technique	This research was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	MATERIALS,17 https://dx.doi.org/10.3390/ma17153681	2024

Publicatii 2025

Nr	Autori		Titlu	Finantare	Jurnal	An
1)		Borcan, LE; Teodorescu, CM; Iancu, AC; Apostol, NG; Nicolaev, A; Costescu, RM; Husanu, MA; Popescu, DG; Lungu, GA; Bianchi, M	Surface spin asymmetry in Pt(001)-hex induced by electron accumulation	This work was funded by the Core Program of the National Institute of Materials Physics under the Project PC2-PN23080202. All experiments were performed using the National Interest Setup 'System of complex XPS/ESCA installations and research using synchrotron radiation' at the Elettra Sincrotrone Trieste.	JOURNAL OF PHYSICS-MATERIALS,8 https://dx.doi.org/10.1088/2515-7639/aded36	2025
2)		Rostas, AM; Suciu, RC; Rosu, MC; Turza, A; Cosma, DV; Tripon, S; Fort, CI; Danciu, V; Baia, M; Bocirnea, A; Indrea, E	Annealing temperature, a key factor in shaping Ag-decorated TiO2 aerogels as efficient visible-light photocatalysts	This work was carried out through the Nucleu Program within the National Plan for Research, Development and Innovation 2022- 2027, with the support of M.C.I.D., project no. 27N/PN 23 24 01 01/03.01.2023. The authors would like to thank Dr. Maria Mihet for carrying out the Nitrogen (N2) sorption analysis.	MATERIALS CHEMISTRY AND PHYSICS,337 https://dx.doi.org/10.1016/j.matchemphys.2025.130557	2025
3)		Socol, M; Preda, N; Costas, A; Petre, G; Stanculescu, A; Stavarache, I; Popescu-Pelin, G; Iftimie, S; Stochioiu, A; Catargiu, AM; Socol, G	Influence of flexible substrate nature covered with ITO on the characteristics of organic heterostructures fabricated by laser deposition techniques	This research was funded by the Romanian Ministry of Research, Innovation and Digitalization, CNCS-UEFISCDI, project number PN-IV-P7-7.1-PED2024-0884 and project number PN-IV-P2-2.1- TE-2023-0909 and through National Core Founding Program Project PN23080303 (contract no. 28 N/2023) and Project PN23030101 (contract no. 30N/2023).	APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING,131 https://dx.doi.org/10.1007/s00339-024-08149-4	2025
4)		Husanu, MA; Popescu, DG	From Classical Ferroelectricity to Emerging Low-Dimensional Phases	This work was funded by the Romanian UEFISCDI Agency under Contract No. 44PCE/2025 (PN-IV-P1-PCE-2023-1830) and Core Program - Component Project 2 No. PN23080202, funded by the Romanian Ministry of Research, Innovation and DigitizationPN23080202	ADVANCED PHYSICS RESEARCH,4, pp+- https://dx.doi.org/10.1002/apxr.202500107	2025
5)		Breazu, C; Stanculescu, A; Socol, M; Rasoga, O; Preda, N; Costas, A; Stan, GE; Popescu, DG; Petre, G; Iftimie, S; Tite, T	DNA-RNA Nucleobase-Coated ZnO Nanostructures for Interface Engineering in Organic Optoelectronics	This research was funded by the Romanian National Authority for Scientific Research and Innovation, the Romanian Ministry of Research, Innovation and Digitalization, CNCS-UEFISCDI, within the framework of projects PN-IV-P2-2.1-TE-2023-1626 and PN-IV-P7-7.1-PED2024-0884. The authors are thankful for the support of the Core Program of the National Institute of Materials Physics within the National Research, Development, and Innovation Plan 2022-2027, carried out with the support of the Romanian Ministry of Research and Education under the project PC3-PN23080303.	ACS APPLIED NANO MATERIALS,8, pp+16307-16320 https://dx.doi.org/10.1021/acsanm.5c02516	2025
6)		Azarov, A; Radu, C; Galeckas, A; Mercioniu, IF; Cernescu, A; Venkatachalapathy, V; Monakhov, E; Djurabekova, F; Ghica, C; Zhao, J; Kuznetsov, A	Self-Assembling of Multilayered Polymorphs with Ion Beams	The M-ERA.NET Program is acknowledged for financial support via the GOFIB project (administrated by the Research Council of Norway project number 337627).A.A. and E.M. acknowledge the Research Centre for Sustainable Solar Cell Technology (FME SuSolTech, RCN project number 257639). The Research Council of Norway is acknowledged for the support to the Norwegian Micro- and Nano-Fabrication Facility, NorFab, project number 295864 and DIOGO grant, project number 351033. C.R., I.F.M., and C.G. acknowledge funding from projects PC3-PN23080303 within the Core Program of PNCDI2022-2027 and PNRR-I8 no.760083. J.Z. acknowledges the National Natural Science Foundation of China under Grant 62304097; Guangdong Basic and Applied Basic Research Foundation under Grant 2023A1515012048;and Shenzhen Fundamental Research Program under Grant JCYJ20230807093609019and JCYJ20240807170626004. The computational resources are provided by the Center for Computational Science and Engineering at the Southern University of Science and Technology and the IT Center for Science, CSC, Finland. The international collaboration was in part enabled by the INTPART program at the Research Council of Norway via project number 322382.	NANO LETTERS,25, pp+1637-1643 https://dx.doi.org/10.1021/acs.nanolett.4c05727	2025
7)		Ciobotaru, CC; Ciobotaru, IC; Nitescu, A; Polosan, S	Engineering of thin metallic electrodes on OLED performance	This work was partially supported by the Core Program of Romanian Ministry of Research, Innovation, and Digitalization through Projects PC2-PN23080202.	APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING,131 https://dx.doi.org/10.1007/s00339-025-09074-w	2025
8)		Ciobotaru, IC; Ciobotaru, CC; Bartha, C; Enculescu, M; Secu, M; Polosan, S; Besleaga, C	Phase Transitions in Dimer/Layered Sb-Based Hybrid Halide Perovskites: An In-Depth Analysis of Structural and Spectroscopic Properties	This work was partially supported by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Projects PC1-PN23080101 and PC2-PN23080202. I.C. Ciobotaru and C. Besleaga acknowledge the financial support from the Romanian Ministry of Research, Innovation, and Digitalization under project ERANET-M-3-ERANET-LightCell no. 19/2024.	ADVANCED OPTICAL MATERIALS,13, pp+- https://dx.doi.org/10.1002/adom.202402242	2025
9)		do Nascimento, JLA; Rostas, AM; Silva, A; Kennedy, BJ; Barbu-Tudoran, L; Bocirnea, AE; dos Santos, IM; Alves, MCF; de Oliveira, ALM	Tailoring Structural Distortions and Ionic Defects as Alternative Strategy to Modulate Reactive Oxygen Species and Photocatalytic Activity in SnO2 Nanoparticles	The Brazilian agencies supported this work-CAPES/MEC (finance code 001), and PRONEX/FAPESQ/CNPq (Grant 012/2019). J.L.A.N thanks CAPES/MEC (grant 8887.497404/2020-00) for the awarded fellowship. A.L.M.O. thanks the Paraiba State Research Foundation-FAPESQ/PB (project 1975/2022) and the National Council for Scientific and Technological Development-CNPq (PDS project 102504/2024-5). A.M.R. acknowledges the Romanian Ministry of Research, Innovation, and Digitalization, Core Program Project 27N/03.01.2023, component project PN23240103. B.J.K. acknowledges the support of the Australian Research Council. A.E.B. thanks the Core Program of the National Institute of Materials Physics (Project PC1-PN23080101) and the National Interest Setup System of complex XPS/ESCA installations and research using synchrotron radiation.	CHEMISTRY OF MATERIALS,37, pp+4963-4981 https://dx.doi.org/10.1021/acs.chemmater.4c03146	2025
10)		Beregoi, M; Nistor, S; Ciobotaru, IC; Nitescu, A; Zgura, I; Bunea, MC; Enculescu, M; Nedelcu, L; Busuioc, C; Enache, TA	Cells proliferation on surfaces functionalized with amyloid beta peptide fibrils	Financial support given by Romanian Ministry of Research, Innovation, and Digitalization, CNCS-UEFISCDI through projects PN-III-P4-ID-PCE-2020-1403 within PNCDI III and National Research Council (CNCS) the Core Program Project PC1-PN23080101 are gratefully acknowledged.	INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES,309 https://dx.doi.org/10.1016/j.ijbiomac.2025.143160	2025
11)		Buruiana, AT; Mihai, C; Kuncser, V; Velea, A	Advances in 2D Group IV Monochalcogenides: Synthesis, Properties, and Applications	This work was supported by a grant of the Ministry of Research, Innovation and Digitization, CCCDI-UEFISCDI, project number PN-IV-P7-7.1-PED-2024-2412 (contract no. 11PED/2025), within PNCDI IV and the Romanian Ministry of Research, Innovation, and Digitalization for the Core Program of the National Institute of Materials Physics through Project PC3-PN23080303.	MATERIALS,18 https://dx.doi.org/10.3390/ma18071530	2025
12)		Ungeheuer, K; Rybak, J; Bocirnea, AE; Pikulski, DA; Galca, AC; Marszalek, KW	Influence of Proton Irradiation on Thin Films of AZO and ITO Transparent Conductive Oxides-Simulation of Space Environment	Research project funded partly by the "Excellence Initiative-Research University" program for the AGH University of Krakow, and AGH University of Krakow Project no. 16.16.230.434. NIMP authors acknowledge funding from the Romanian Ministry of Research, Innovation and Digitalization through the Core Project PC3-PN23080303 and UEFISCDI PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) project.	APPLIED SCIENCES-BASEL,15 https://dx.doi.org/10.3390/app15020754	2025
13)		Pena, A; Ostahie, B; Radu, C	Floquet topological phase transitions in 2D Su-Schrieffer-Heeger model: interplay between time reversal symmetry breaking and dimerization	We acknowledge financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian MCID under Project No. PC2-PN23080202.	NEW JOURNAL OF PHYSICS,27 https://dx.doi.org/10.1088/1367-2630/adac84	2025
14)		Boukhoubza, I; Achehboune, M; El Khouja, O; Basyooni-M Kabates, MA; Mindroc, M; Derkaoui, I; Enculescu, M; Matei, E	Enhanced photocatalytic performance of V2O5 NRs/RGO nanocomposites for Rhodamine-B decolorization under solar irradiation: Experimental and theoretical study	I.B. acknowledges the Romanian Ministry of Foreign Affairs and the Agence Universitaire de la Francophonie (AUF) for the Eugen Ionescu research and mobility grant at the National Institute of Materials Physics. M.A gratefully acknowledges the Consortium des Equipements de Calcul Intensif (CECI) , funded by the Fonds de la Recherche Scientifique de Belgique (F.R.S.-FNRS) and the Wallon region (Conventions No. 2.5020.11, GEQU.G006.15, 1610468, RW/GEQ2016 and U.G011.22) for providing Computational resources. E.M acknowledge financial support from EU under Romanian Recovery and Resilience Plan PNRR, Pillar III, Component C9-I8, contract nr. 760083/May 23, 2023 and M.E acknowledge Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC1-PN23080101.	JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS,201 https://dx.doi.org/10.1016/j.jpcs.2025.112654	2025
15)		Enculescu, M; Beregoi, M; Bunea, MC; Trandafir, MM; Enculescu, I	Efficient and reusable 3D TiO2@PDMS sponge composites for solar driven photocatalytic degradation of water pollutants	Authors acknowledge the financial support from the Romanian Mministry of Research, Innovation and Digitalization through Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101. The authors would like to thank Dr. Andrei Galatanu for the measurements of sacrificial template's particle size distributions.	RESULTS IN ENGINEERING,27 https://dx.doi.org/10.1016/j.rineng.2025.107083	2025
16)		Boukhris, S; Iacoban, AC; Ibrahim, M; Badr, H; Kuncser, AC; Neatu, S; Neatu, F; Barsoum, MW; Florea, M; Constantin, D	Structural Analysis of Colloidal Titania-Based Ribbons and Their Self-Assembly upon Drying	The authors acknowledge SOLEIL for the provision of synchrotron radiation facilities and Thomas Bizien for helping with the SWING beamline. The DifferiX platform of the Institut Charles Sadron was used for in-house WAXS, and Guillaume Fleith for performing the measurements and data treatment is acknowledged. The authors also thank the X-ray diffraction platform of the IPCMS. This work was partially funded by NSF (grant no. DMR-2211319). M.F., A.C.I., and S.N. acknowledge the Romanian Ministry of Research, Innovation, and Digitization through the Core Program 2023-2026 (grant no. PC3-PN23080303) and project PN-III-P4-PCE-2021-1461.	SMALL STRUCTURES,6, pp+- https://dx.doi.org/10.1002/sstr.202500017	2025
17)		Keshri, SR; Mandal, I; Gaddam, A; Ganisetti, S; Haque, S; Venkateswaran, C; Stan, GE; Tite, T; Ghosh, A; Gosvami, NN; Krishnan, NMA; Allu, AR	Mixed network former effect on the ion-dynamics of Sodium Alumino-Phospho-Silicate glasses	The authors thank the IIT Delhi HPC for the computational and storage resources. IM thanks the University Grants Commission (UGC) for the NET-JRF fellowship (221610021768) . NMAK acknowledges the support from Alexander von Humboldt foundation. SH and ARA acknowledge the financial support by the Science and Engineering Research Board (SERB) , DST, Government of India, India (CRG/2022/000930) . GES and TT thank the Core Program of the National Institute of Materials Physics within the National Research Development and Innovation Plan 2022-2027, carried out with the support of the Romanian Ministry of Research, Innovation and Digitalization under the project PC1-PN23080101 and PC3-PN23080303, respectively.r project PC1-PN23080101 and PC3-PN23080303, respectively.	ACTA MATERIALIA,288 https://dx.doi.org/10.1016/j.actamat.2025.120837	2025
18)		Borcan, LE; Iancu, AC; Popescu, DG; Teodorescu, CM	Considerable spin asymmetry of deep valence states induced by partial neutralization of charged SrTiO3(011) surfaces	This work was funded by the Core Program of the National Institute of Materials Physics, under the Project No. PC2-PN23080202. All experiments were performed using the National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation."	JOURNAL OF CHEMICAL PHYSICS,162 https://dx.doi.org/10.1063/5.0243885	2025
19)		Badica, P; Grigoroscuta, MA; Kuncser, AC; Vasylkiv, O	High-Entropy Ti, Zr, Hf, Ta Multiphase Diboride with Deformation Resistance up to 2000 °C	P.B., M.A.G., and A.K. acknowledge UEFISCDI for partial support through Core Programs PC1-PN23080101 and PC2-PN23080202. O.V. acknowledges the KAKENHI C 24K08035 Grant in Aids of Scientific Research for partially supporting this study.	ADVANCED ENGINEERING MATERIALS,27, pp+- https://dx.doi.org/10.1002/adem.202402723	2025
20)		Burlanescu, T; Cercel, M; Smaranda, I; Androne, A; Zgura, I; Ganea, CP; Negrila, C; Lorinczi, A; Bartha, C; Baibarac, M	Optical, structural and electrical proprieties of composites based on MoS2, WS2 and poly(ortho-toluidine)	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the PC3-PN23080303.	MATERIALS TODAY COMMUNICATIONS,46 https://dx.doi.org/10.1016/j.mtcomm.2025.112469	2025
21)		Tolea, F; Nita, M; Tolea, M	Thermal memory effect in NiFeGa and NiMnGa shape memory ribbons: Toward maximum-temperature recording applications	This work was supported by the Romanian Ministry of Research, Romania, Innovation and Digitization, grant PN-III-P2-2.1-PED-2019-3453 (contract no. 493/2020), and by Core Program Project, Romania grant number PC2-PN23080202.	JOURNAL OF ALLOYS AND COMPOUNDS,1043 https://dx.doi.org/10.1016/j.jallcom.2025.184056	2025
22)		Assahsahi, I; Galatanu, A; El Bouayadi, R; Zejli, D; Popescu, B	Synergistic effects of Ag-Bi co-doping on thermoelectric properties of Mg2Si0.3Sn0.7 solid solutions	The authors acknowledge financial support from the Romanian Ministry of Research, Innovation, and Digitalization through the Core Program PN23080303 (Contract No. 28N/12.01.2023) .	JOURNAL OF ALLOYS AND COMPOUNDS,1039 https://dx.doi.org/10.1016/j.jallcom.2025.183310	2025
23)		Belciu, MI; Velea, A	Ensemble Machine Learning for the Prediction and Understanding of the Refractive Index in Chalcogenide Glasses	This work was supported by a grant of the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN-IV-P1-PCE-2023-1785 (60 PCE/2025), within PNCDI IV and the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through Project PC3-PN23080303.	MOLECULES,30 https://dx.doi.org/10.3390/molecules30081745	2025
24)		Botta, D; Beregoi, M; Cepleanu-Pascu, IA; Crisan, DN; Ignat, AM; Matei, E; Enculescu, I; Diculescu, VC	A paper-based device with submicronic fiber mesh electrodes for voltammetric quantification of nucleic acids	The authors acknowledge financial support from the Romanian Executive Agency for Higher Education, Research, Development and Innovation Funding (UEFISCDI) through project PN-III-P4-PCE-2021-1006; from the Romanian Ministry of Research, Innovation and Digitalization through project 760083/23.05.2023, CF60, 3D Magnetic Nanostructures for Advanced Technologies; and the Core Program of the National Institute of Materials Physics under the project PC1-PN23080101.	CELL REPORTS PHYSICAL SCIENCE,6 https://dx.doi.org/10.1016/j.xcrp.2025.102781	2025
25)		Oprica, IMA; Beregoi, M; Popescu-Pelin, GF; Constantinoiu, I; Bacalum, M; Draghici, CI; Jinga, SI; Busuioc, C	Development of new scaffolds for bone substitution by electrospinning and laser ablation	For the biological studies, M.B. and C.I.D. acknowledge the Romanian Ministry of Research, Innovation and Digitization, through the National Core Program No. PN 23 21 02 February 2023.	JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T,35, pp+6087-6101 https://dx.doi.org/10.1016/j.jmrt.2025.02.225	2025
26)		Dinca, V; Mandes, A; Vladoiu, R; Tichy, M; Kudrna, P; Matei, E; Polosan, S	A study of the laser-aided TVA plasma applied for deposition of Mg/Zn: Al bilayers	This research was partially supported by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Projects PC2-PN23080202 and by the program Johannes Amos Comenius (co-funded by the European Union) QM4ST, project number CZ.02.01.01/00/22_008/0004572.	RESULTS IN SURFACES AND INTERFACES,21 https://dx.doi.org/10.1016/j.rsurfi.2025.100661	2025
27)		Sadurni, MD; Timmo, K; Mikli, V; Krustok, J; Danilson, M; Suchodolskis, A; Radu, C; Bocirnea, AE; Galca, AC; Grossberg-Kuusk, M; Kauk-Kuusik, M	Effects of cationic substitution on the properties of Sb1-xBixSeI (x=0-1) compounds	This work was supported by European Union through the European Regional Development Fund, Project TK210, and by the Estonian Research Council grant PRG1023. NIMP authors acknowledge funding from Autoritatea Nationala pentru Cercetare (Romanian National Authority for Research) through the Core Programme PC3-PN23080303 project, and from Unitatea Executiva pentru Finan t area Invat amantuluiSuperior, a Cerceta rii, Dezvolta rii s i Inova rii (UEFISCDI) through ERANET-M-3-ERANET-Ligthcell (Contract No. 19/15.03.2024) project. The XPS measurements were performed using the Romanian National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	JOURNAL OF ALLOYS AND COMPOUNDS,1037 https://dx.doi.org/10.1016/j.jallcom.2025.182292	2025
28)		Predoi, D; Ciobanu, CS; Iconaru, SL; Rokosz, K; Raaen, S; Predoi, SA; Talu, S; Motelica-Heino, M	Comprehensive Physicochemical and Biological Analysis of Hydroxyapatite/Dextran Powders before and after Immersion in Kokubo Solution	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101. The next project funded by Romanian Ministry of Research, Innovation and Digitalization through the Project PN-IV-P6-6.1-COEX-2024-0120	LANGMUIR,41, pp+17011-17034 https://dx.doi.org/10.1021/acs.langmuir.5c01585	2025
29)		Bartha, C; Locovei, C; Alexandru-Dinu, A; Comanescu, C; Grigoroscuta, MA; Kuncser, A; Iacob, N; Galatanu, M; Leca, A; Badica, P; Kuncser, V	Cation distribution and its magnetic implications in gadolinium-iron garnets for an enhanced control of compensation temperature	Authors acknowledge support from UEFISCDI though projects: PN-III-P2-2.1-PED-2021-2007 (contract no. 676PED/2022), PN-IV- P7-7.1 PED (contract no 63 PED/2025), and Core Programs PC1-PN23080101 and PC2-PN23080202.	PHYSICAL CHEMISTRY CHEMICAL PHYSICS,27, pp+22894-22900 https://dx.doi.org/10.1039/d5cp02696b	2025
30)		Hrib, LM; Trupina, L; Botea, MI; Chirila, CF; Boni, AG; Istrate, MC; Pintilie, L	Electrical properties of epitaxial PZT-LSMO magnetoelectric heterostructures: the effect of the interface with the electrodes	This work was supported by Core Program of the National Institute of Materials Physics 2023-2026, Project PC2-PN23080202, funded by the Romanian Ministry of Research, Innovation and Digitalization.	JOURNAL OF PHYSICS D-APPLIED PHYSICS,58 https://dx.doi.org/10.1088/1361-6463/add542	2025
31)		Nita, M; Tolea, M; Marinescu, DC	A general algorithm for determining the conductivity zeros in large molecular nanostructures: applications to rectangular graphene sheets	We acknowledge financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian MCID under Project Nos. PC2-PN23080202 and PC4-PN23080404.	JOURNAL OF PHYSICS-CONDENSED MATTER,37 https://dx.doi.org/10.1088/1361-648X/add77f	2025
32)		Popescu, B; Bartha, C; Enculescu, M; Tolea, F; Grigoroscuta, MA; Tolea, M; Badica, P; Sofronie, M	Martensitic transformation dynamics and mechanical properties investigation in spark plasma sintered Ni-Mn-Ga shape memory alloys	This work was supported by the Romanian Ministry of Research, Innovation, and Digitization, projects number PN-III-P2-2.1-PED-2019-1276 (Contract No. 324/2020), PN-IV-P7-7.1-PED-2024-2569 (Contract No. 63/2025) and Core Program Project Grant No. PC2-PN23080202.	SMART MATERIALS AND STRUCTURES,34 https://dx.doi.org/10.1088/1361-665X/add19d	2025
33)		Mihalache, V	Fe-ZnO as an oxide-dilute magnetic semiconductor in the nanostructured ZnFeO exchange bias system	This work was supported by the Core Program of the National Institute of Materials Physics under Project PC2 PN 23080202 of the Romanian Ministry of Education and Research. Anelis Plus facilitated open access publishing as part of the IOP - Anelis Plus agreement (the official name 'Asociatia Universitatilor, a Institutelor de Cercetare - Dezvoltare si a Bibliotecilor Centrale Universitare din Romania'). The author gratefully thanks Dr I. Pasuk (NIMP, Romania) for the Rietveld fitting, and Dr C. Negrila and Dr I. Mercioniu (NIMP, Romania) for their experimental and technical support.	MATERIALS RESEARCH EXPRESS,12 https://dx.doi.org/10.1088/2053-1591/adee81	2025
34)		Secu, CE; Bartha, C; Secu, M	Unravelling the crystallization mechanism and structural evolution of Yb/Er-doped SiO2-GdF3 nano-glass ceramics	The authors acknowledge funding by the Core Program of the National Institute of Materials Physics (NIMP), granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303. The help of Dr Silviu Polosan for the Up-Conversion luminescence set-up and efficiency measurements is gratefully acknowledged.	MATERIALS ADVANCES,6, pp+5877-5883 https://dx.doi.org/10.1039/d5ma00377f	2025
35)		Borcan, LE; Iancu, AC; Apostol, NG; Nicolaev, A; Teodorescu, CM	Surface spin asymmetry of O 2p and Ba 5p states in BaTiO3(001)	The BaTiO3(001) thin film was prepared by Dr Cristina F. Chirila. XRD characterization studies were performed by Dr Dana G. Popescu. The coil for in situ ample magnetization (M3 experiment) was installed and calibrated by Dr Marco Bianchi. This work was funded by the Core Program of the National Institute of Materials Physics, under the project PC2-PN23080202. All experiments were performed using the National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	MATERIALS ADVANCES,, pp+- https://dx.doi.org/10.1039/d5ma00363f	2025
36)		Negrila, CC; Cotirlan, C; Iancu, AC; Popescu, DG; Palade, C; Trupina, L	Investigations on HfO2/n-GaAs(110) interface, in-situ obtained by Oxide-MBE	This work was funded by the Romanian Ministry of Research, Innovation, and Digitalization through the Core Program of the National Institute of Materials Physics, under the Project PC2- PN23080202.	MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING,198 https://dx.doi.org/10.1016/j.mssp.2025.109746	2025
37)		Gilshtein, E; Gupta, HM; Enevoldsen, AMP; Besleaga, C; Galca, AC; Canulescu, S	Superstrate structured Sb2S3 thin-film solar cells by magnetron sputtering of Sb and post-sulfurization	This work is supported by the M-ERA.NET Grant funded by the Innovation Fund Denmark project (Lightcell, project number 211800014B), and by Independent Research Fund DFF-Research Project 1 Inge Lehmann (New, tunable n-type material for emerging thin-film solar cells, project number 1134-00005B71336). NIMP authors acknowledge funding from the Romanian Ministry of Rresearch, Innovation and Digitalization through the Core Programme PC3PN23080303 project, and from UEFISCDI through ERANET-M-3-ERANET-Ligthcell project (contract No. 19/15.03.2024). The authors would also like to acknowledge the contributions of DTU MSc students Fardin Ghaffari-Tabrizi and Ritjiua Kahuure for preliminary work on Sb and Sb2S3 sulfurization. We also thank Moises Espindola for training on the EQE system and Au evaporation setup, together with Professor Jens Wenzel Andreasen from DTU Energy, for kindly allowing us to use the laboratory facilities and measurement equipment.	MATERIALS & DESIGN,258 https://dx.doi.org/10.1016/j.matdes.2025.114621	2025
38)		Caramitu, AR; Popescu, I; Grigoroscuta, M; Kuncser, A; Ganea, PC; Galatanu, A; Galatanu, M; Aldica, G; Badica, P; Burdusel, M; Bors, AM	Advanced Epoxy Resin/Boron Nitride Composites for High-Performance Electrotechnical Applications and Geological Instrumentation	This work was supported by the Romanian Ministry of Research, Innovation and Digitalization through the Core Programme, projects number PN23140201/2023, PN23390403/2023, and POC-G 54/2016 (contract No. 1788/2019).	MATERIALS,18 https://dx.doi.org/10.3390/ma18214860	2025
39)		Güner, SB; Badica, P; Miryala, M	Magnetic Levitation Performance of Superconducting Silver-Added MgB2 Bulks Obtained by In Situ Spark Plasma Sintering	P.B. acknowledges UEFISCDI, Romania for financial support through Core Program PC2-PN23080202 and PN-IV-P1-PCE-2023-1692 (contract no. 98PCE/2025 CCOS). Authors thank D. Radu for help with SEM measurements.	ADVANCED ENGINEERING MATERIALS,27 https://dx.doi.org/10.1002/adem.202501616	2025
40)		Gherca, D; Borhan, AI; Popescu, DG; Husanu, MA; Borca, CN; Stoian, G; Chiriac, H; Ababei, G; Lupu, N	Monophasic Titanate-Based Photocatalyst with Heteroatom Mixed Iso-Aliovalency Enabling Water Oxidation	This work was funded by the European Union - NextGenerationEU, Call no. PNRR-III-C9-2022-I9, Contract No. 760013/27.01.2023. D.G. acknowledges also the financial support of the grant of the Romanian Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN-III-P1-1.1-TE-2021-0444, within PNCDI III and Nucleu-program within the National Research Development and Innovation Plan 2022-2027, Project number PN 23 11 01 01. DFT calculations were supported by the Core program of the National Institute of Materials Physics under the project PC1-PN23080101. XPS measurements were performed using National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation". M.A.H. was supported by Romanian UEFISCDI Agency through the grant PN-IV-P1-PCE-2023-1830, contract no. 44PCE/2025. We acknowledge the Paul Scherrer Institut, Villigen, Switzerland, for the provision of synchrotron radiation beamtime at beamline Phoenix of the SLS under project no. 20221530.	ACS APPLIED MATERIALS & INTERFACES,17, pp+30910-30923 https://dx.doi.org/10.1021/acsami.5c03417	2025
41)		Sandu, N; Hanganu, A; Popescu, C; Demeter, AM; Mirea, AG; Kuncser, A; Tablet, C; Hadade, ND; Florea, M; Funeriu, DP; Matache, M	Synthesis of dynamic N-acylhydrazone-based macrocycles	This work was partially supported by grants of the Romanian Ministry of Research, Innovation and Digitization, PNRR/2022/C9/MCID/I8, project number CF 760056/23.05.2023, code 235/29.11.2022. MF and AM acknowledge financial support from the Romanian Ministry of Research, Innovation and Digitization through the Core Program 2023-2026 (contract PC3-PN23080303). University of Bucharest - UniRem project no. 244 is also gratefully acknowledged.	JOURNAL OF MATERIALS CHEMISTRY A,13, pp+10232-10242 https://dx.doi.org/10.1039/d4ta09035g	2025
42)		Soare, EM; Stanciu, CA; Patru, RE; Surdu, VA; Padurariu, L; Horchidan, N; Nicoara, AI; Trupina, L; Vasile, BS; Trusca, RD; Mitoseriu, L; Ianculescu, AC	Grain size effects in BaTi0.90Hf0.10O3 ceramics with phase coexistence: the influence of nanostructuring and of the internal stress on the functional properties	The authors are grateful to Ministry of Research, Development and innovation through the National Programme "Installations and Strategic Objectives of National Interest" for access to infrastructure. L.P., N.H. and L.M. acknowledge the Romanian grant PN-IV-P1-PCE-2023-1758. R.E.P. acknowledges the financial support from the Core Program of the National Institute of Materials Physics 2023-2026, Project PC2-PN23080202, funded by the Romanian Ministry of Research, Innovation and Digitalization.	JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T,38, pp+5389-5408 https://dx.doi.org/10.1016/j.jmrt.2025.08.195	2025
43)		Diallo, A; Ndiaye, S; Tite, T; Yahsi, U; Diculescu, VC; Seck, A; Dioum, A; Ngom, BD; Ahmad, I; Galca, AC; Azizi, S	Bioengineered Y2O3 nanorods and their potential blue-emitting phosphors	This work was supported by the World Academy of Sciences (TWAS-UNESCO Associatesship-Ref. 3240314530), the UNESCO-UNISA Africa Chair in Nanosciences and Nanotechnology, the National Research Foundation (NRF) of South Africa-iThemba LABS, Romanian Ministry of External Affairs via the Agence Universitaire de la Francophonie (AUF) / Eugen Ionescu research and mobility grant at the National Institute of Materials Physics, Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303, the NAM S & T Centre, New Delhi (NAM-05/74/2015), the Cheikh Anta Diop University, and the Abdus Salam ICTP via the Nanoscience African network (NANOAFNET), as well as the African Laser Center, to whom we are grateful.	BULLETIN OF MATERIALS SCIENCE,48 https://dx.doi.org/10.1007/s12034-025-03406-5	2025
44)		Predoi, D; Iconaru, SL; Ciobanu, SC; Rokosz, K; Talu, S; Predoi, SA; Raaen, S; Motelica-Heino, M	Exploring the fabrication, properties, and morphology of fluorine substituted hydroxyapatite coatings	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1- PN23080101. Also, this research was supported by Contract No. T-IS 251801/May 04, 2018 and Scientific Research Contract Nr.1/June 4, 2020.	CERAMICS INTERNATIONAL,51, pp+1929-1948 https://dx.doi.org/10.1016/j.ceramint.2024.11.168	2025
45)		Ciobanu, CS; Predoi, D; Iconaru, SL; Rokosz, K; Raaen, S; Negrila, CC; Ghegoiu, L; Bleotu, C; Predoi, MV	Chrome Doped Hydroxyapatite Enriched with Amoxicillin Layers for Biomedical Applications	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	COATINGS,15 https://dx.doi.org/10.3390/coatings15020233	2025
46)		Zidi, Y; Khaldi, O; Patru, RE; Leonat, LN; Enculescu, M; Toma, V; Stepanova, A; Ben Younes, R; Galca, AC	Experimental and theoretical perspective on band gap modulation in Sr modified BaTiO3 capacitors 2+	Y. Z. acknowledges the Romanian Ministry of Foreign Affairs and Agence universitaire de la Francophonie for the Eugen Ionescu research and mobility grant at NIMP. TEMI authors acknowledge the financial support from the Ministry of Higher Education and Scientific Research of Tunisia. NIMP authors acknowledge funding by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through Project PC3-PN23080303.	CERAMICS INTERNATIONAL,51, pp+18166-18177 https://dx.doi.org/10.1016/j.ceramint.2025.01.591	2025
47)		El Khouja, O; Gong, YC; Jimenez-Arguijo, A; Guerra, MJ; Medaille, AG; Scaffidi, R; Basak, A; Radu, C; Flandre, D; Vermang, B; Giraldo, S; Placidi, M; Li-Kao, ZJ; Galca, AC; Saucedo, E	Exploring the Synthesis of Cu2(Zn,Cd)SnS4 at High Temperatures as a Route for High-Efficiency Solar Cells	NIMP authors acknowledge funding from Ministerul Cercet & abreve;rii, Inov & abreve;rii si Digitaliz & abreve;rii (Romanian Ministry of Research, Innovation and Digitalization) through the Core Programme PC3-PN23080303 project, and from Unitatea Executiva pentru Finantarea Invatamantului Superior, a Cercetarii, Dezvoltarii si Inovarii (UEFISCDI) through PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) and ERANET-M-3- ERANET-Ligthcell (Contract No. 19/15.03.2024) projects. Authors acknowledge the COST Action Research and International Networking project "Emerging Inorganic Chalcogenides for Photovoltaics (RENEW-PV)," CA21148, supported by COST (European Cooperation in Science and Technology). This work received also funding from the European Union's Horizon 2020 research and innovation program under grant agreement number 952982 (CUSTOM-ART) and 866018 (SENSATE), and by the Science Ministry of Spain (Ministerio de Ciencia, Innovacion y Universidades) projects number PID2020-116719RB-C41 (MATER-ONE) and TED2021-130265B-C21 (MIRACLE). A. J. A. thanks the European Social Fund+ for the FI fellowship. S.G. thanks the Juan de la Cierva grant IJC2020-044716-I funded by Ministerio de Ciencia, Innovacion y Universidades (MCIN/AEI/10.13039/501100011033) and by European Union's Horizon 2020 research and innovation program, NextGenerationEU/PRTR. E. S. is grateful to ICREA (Institucio Catalana de Recerca i Estudis Avancats) Academia program. R. S. thanks Fonds Wetenschappelijk Onderzoek (FWO) for the funding through the Fundamental Research PhD Fellowship (1178024 N). A. B. thanks the grant SIR/2022/001011 by Science and Engineering Research Board (SERB) India. Horizon 2020 Framework Programme.	PROGRESS IN PHOTOVOLTAICS,33, pp+628-643 https://dx.doi.org/10.1002/pip.3899	2025
48)		Hatel, R; Boukhoubza, I; Derkaoui, I; Kabatas, MABM; Matei, E; Enculescu, M; Baitoul, M	Synthesis and photocatalytic activity of WO3 nanocomposites incorporating GO and MWCNTs for enhanced Rhodamine-B degradation	Thanks to the National Institute of Materials Physics (Romania) , the Romanian Ministry of Foreign Affairs, and the Agence Universitaire de la Francophonie for the Eugen Ionescu research. E.M. acknowledges financial support from the EU under Romanian Recovery and Resilience Plan PNRR, Pillar III, Component C9-I8, contract nr.760083/23.05.2023, and M.E. acknowledges support from the National Institute of Materials Physics Core Program, granted by the Romanian Ministry of Research, Innovation, and Digitalization under Project PC1-PN23080101.	COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,711 https://dx.doi.org/10.1016/j.colsurfa.2025.136395	2025
49)		Bleotu, C; Iconaru, SL; Ciobanu, CS; Groza, A; Predoi, D	Exploring the Effects of Dulbecco's Modified Eagle's Medium on Irradiated Layers of Magnesium-Doped Hydroxyapatite in a Chitosan Matrix for Biomedical Applications	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Project PC1-PN23080101.	COATINGS,15 https://dx.doi.org/10.3390/coatings15020209	2025
50)		Ghegoiu, L; Predoi, D; Iconaru, SL; Ciobanu, CS; Rokosz, K; Raaen, S; Badea, ML; Predoi, MV	Physicochemical and Preliminary Biological Properties of Thin Films Based on Fluoride-Doped Hydroxyapatite in a Dextran Matrix for Biomedical Applications	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	COATINGS,15 https://dx.doi.org/10.3390/coatings15050565	2025
51)		Iacob, N	Pitfalls and Challenges in Specific Absorption Rate Evaluation for Functionalized and Coated Magnetic Nanoparticles Used in Magnetic Fluid Hyperthermia	This research study was funded by the Romanian Ministry of Research, Innovation and Digitalization, Core Program of the National Institute of Materials Physics under Project PN23080101.	COATINGS,15 https://dx.doi.org/10.3390/coatings15030345	2025
52)		Leote, RJB; Barsan, MM; Sanz, CG; Diculescu, VC	Electrochemical bienzymatic biosensor for pyruvate kinase activity evaluation and inhibitor screening	Financial support from the Romanian Ministry of Research, Innovation and Digitalization, through Projects: NANOBIOSURF-SMIS 103528, and Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	TALANTA,291 https://dx.doi.org/10.1016/j.talanta.2025.127886	2025
53)		Iacoban, AC; Rostas, AM; Mihalcea, CG; Vlaicu, ID; Culita, D; Ilas, MC; Florea, M; Neatu, S; Neatu, F; Secu, M; Popescu, T	Distortion of charge carrier trapping centers during incipient phase transformations in TiO2 can enhance its photocatalytic performance	This work was supported by the Romanian Ministry of Research and Innovation through the National Core Program PN23080101, contract no. 28N/12.01.2023, and PN23240103, contract no. 27N/03.01.2023. We thank Dr. Mihai-Aurel Vlaicu for useful discussions regarding experimental and theoretical considerations in determining photo-catalytic efficiency.	JOURNAL OF ALLOYS AND COMPOUNDS,1018 https://dx.doi.org/10.1016/j.jallcom.2025.179097	2025
54)		Silva, A; Aleinawi, MH; Erdem, E; Kennedy, BJ; Galca, AC; dos Santos, IMG; Rostas, AM; de Oliveira, ALM	High-Performance and Ultrafast Symmetric Supercapacitors Based on Cu(II)-Doped SrSnO3 Perovskites	The authors acknowledge the financial support of the Brazilian funding agencies-National Council for Scientific and Technological Development, CNPq/MCTIC and Coordination for the Improvement of Higher Education Personnel, CAPES/MEC (finance code 001). A.S. thanks the CAPES, Brazil (grant 88882.440054/2019-01). B.J.K. acknowledges the support of the Australian Research Council. A.C.G. acknowledges the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Project PC3-PN23080303. A.M.R. acknowledges the support of a grant from the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN-IV-P2-2.1-TE-2023-0048, within PNCDI IV. A.L.M.O. greatly acknowledges the National Council for Scientific and Technological Development-PDE/CSF/CNPq (grant 232680/2014-0) and PDS/CNPq/MCTI (grant 102504/2024-5), Paraiba Sate Research Foundation-FAPESQ/PB (grant 008/2022) and National Institute of Materials Physics (project 35PFE/2021) for the support received to perform his short scientific mission, and also The University of Sydney as well as the Australian Synchrotron.	JOURNAL OF PHYSICAL CHEMISTRY C,129, pp+15179-15195 https://dx.doi.org/10.1021/acs.jpcc.5c03126	2025
55)		Aldea, A; Onea, M; Matei, E; Apostol, N; Botta, D; Enculescu, I; Diculescu, VC	Phosphorothioated oligonucleotides on gold-coated electrospun polymeric fibers for electrochemical genosensors	Financial support from the Romanian Executive Agency for Higher Education, Research, Development and Innovation Funding (UEFISCDI) through projects PN-III-P4-PCE-2021-1006, P1-1.1-PD-2021-0319, and from the Romanian Ministry of Research, Innovation, and Digitalization through Operational Programme Competitiveness 2014-2020, Project: NANOBIOSURF-SMIS 103528 and Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	ELECTROCHIMICA ACTA,524 https://dx.doi.org/10.1016/j.electacta.2025.146006	2025
56)		Chirila, CF; Boni, GA; Popescu, DG; Istrate, CM; Husanu, MA; Filip, LD; Besleaga, C; Pintilie, L; Dimoulas, A	Ferroelectric Hf0.5Zr0.5O2 thin films on TiN/Si substrates grown by pulsed laser deposition at CMOS-compatible temperatures	The authors acknowledge financial support through the PNRR project 760239/December 28, 2023, funded by the Romanian Ministry of Research, Innovation and Digitization through the National Recovery and Resilience Plan, and Core Program, component project PN23080202, funded by Romanian Ministry of Research, Innovation and Digitization.	CERAMICS INTERNATIONAL,51, pp+50941-50950 https://dx.doi.org/10.1016/j.ceramint.2025.08.321	2025
57)		Sima, M; Preda, N; Negrila, C; Matei, E; Sima, A; Stancu, V	Ce-doped ZnO photoanode with enhanced photoelectrochemical performance	This work was funded by the Core Program of the National Institute of Materials Physiscs under the Project PC2-PN23080202.	INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,114, pp+52-59 https://dx.doi.org/10.1016/j.ijhydene.2025.03.048	2025
58)		Burlanescu, T; Smaranda, I; Androne, A; Florica, CS; Cercel, M; Paraschiv, M; Udrescu, A; Lorinczi, A; Palade, P; Galatanu, A; Negrila, C; Matei, E; Dinescu, M; Cercel, R; Baibarac, M	Composites Based on Poly(ortho-toluidine) and WS2 Sheets for Applications in the Supercapacitor Field	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303.	BATTERIES-BASEL,11 https://dx.doi.org/10.3390/batteries11010037	2025
59)		Spataru, N; Preda, L; Matei, E; Satulu, V; Mihai, MA; Radu, MM; Donath, C; Moga, OG; Spataru, T	Beneficial role of silicotungstic acid presence on the WO3-modified boron-doped diamond substrate on the electrocatalytic activity for methanol anodic oxidation of supported platinum	This study was performed within the framework of the Electro-chemical preparation and characterization of active materials with pre-determined features research project of the Institute of Physical Chemistry-Ilie Murgulescu of the Romanian Academy. XPS and SEM studies were supported by Romanian Ministry of Research, Innovation and Digitalization under Romanian National Core Program LAPLAS VII-contract no. 30 N/2023 of National Institute for Lasers, Plasma and Radiation Physics and Project PC1-PN23080101 of the National Institute of Material Physics. The authors are very grateful to Dr. Gianina Dobrescu from the Institute of Physical Chemistry-Ilie Murgulescu of the Romanian Academy for the invaluable assistance with fractal analysis and helpful discussions.	INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,120, pp+403-411 https://dx.doi.org/10.1016/j.ijhydene.2025.03.327	2025
60)		Iacob, N; Palade, P; Comanescu, C; Crisan, O; Toderascu, LI; Socol, G; Schinteie, G; Kuncser, V	Comprehensive Methodology for Evaluating the Drug Loading of Iron Oxide Nanoparticles Using Combined Magnetometry and Mössbauer Spectroscopy	This research was funded by the Romanian Ministry of Research, Innovation, and Digitalization core program of the National Institute of Materials Physics under Project PN23080101 and core program of INFLPR under contract no. 30N/2023.	MOLECULES,30 https://dx.doi.org/10.3390/molecules30030676	2025
61)		Aldica, G; Batalu, D; Nakamura, T; Ferbinteanu, M; Locovei, C; Vlaicu, MA; Pasuk, I; Badica, P	Structural and thermal analysis of the linear polygermoxane GeSP	Authors acknowledge financial support from UEFISCDI Romania through Core Program PC2-PN23080202.	JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY,150 https://dx.doi.org/10.1007/s10973-024-13962-3	2025
62)		Mandes, A; Vladoiu, R; Dinca, V; Tichy, M; Kudrna, P; Matei, E; Polosan, S	Bilayered metallic cathodes consisting of pure Mg and Zn:Al thin films optimized by Laser-induced Thermionic Vacuum Arc (LTVA) technology	This work was partially supported by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Projects PC2-PN23080202 and by the program Johannes Amos Comenius (co-funded by the European Union) QM4ST, project number CZ.02.01.01/00/22_008/0004572.	APPLIED SURFACE SCIENCE ADVANCES,28 https://dx.doi.org/10.1016/j.apsadv.2025.100787	2025
63)		Ciobanu, CS; Predoi, D; Iconaru, SL; Negrila, CC; Leduc, D; Ghegoiu, L; Bleotu, C; El Kettani, MEC; Trusca, R; Zelmar, P; Predoi, MV	New Nanobioceramics Based on Hydroxyapatite for Biomedical Applications: Stability and Properties	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization through the Project PC1-PN23080101.	NANOMATERIALS,15 https://dx.doi.org/10.3390/nano15030224	2025
64)		Stavarache, I; Palade, C; Slav, A; Dascalescu, I; Lepadatu, AM; Matei, E; Besleaga, C; Ciurea, ML; Kardynal, BE; Stoica, T	Effect of molecular adsorption on the conductivity of selectively grown, interconnected 2D-MoS2 atomically thin flake structures	This work was financially supported by a grant from the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN.111-P2-2.1-PED-2021-2457, as well as by the NIMP Core Program Project PC2-PN23080202.	NANOSCALE ADVANCES,7, pp+2368-2380 https://dx.doi.org/10.1039/d5na00138b	2025
65)		Ciobanu, SC; Predoi, D; Iconaru, SL; Rokosz, K; Raaen, S; Bleotu, C; Predoi, MV	Development of Chrome-Doped Hydroxyapatite in a PVA Matrix Enriched with Amoxicillin for Biomedical Applications	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitalization through Project PC1-PN23080101.	ANTIBIOTICS-BASEL,14 https://dx.doi.org/10.3390/antibiotics14050455	2025
66)		Ostahie, B; Aldea, A	Antichiral edge states in diatomic square lattice and quantum transport properties	We acknowledge financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian MCID under Project No. PC2-PN23080202.	PHYSICAL REVIEW B,112 https://dx.doi.org/10.1103/3hc5-z3wt	2025
67)		Burdusel, M; Aldica, GV; Pasuk, I; Grigoroscuta, MA; Kuncser, A; Badica, P	Trapped Magnetic Field of MgB2 Machinable Disks with Different Additives	Authors acknowledge financial support from UEFISCDI Romania through Core Program PC2-PN23080202. Authors also thank D. Radu for help with SEM/EDS observations.	JOURNAL OF SUPERCONDUCTIVITY AND NOVEL MAGNETISM,38 https://dx.doi.org/10.1007/s10948-025-07002-w	2025
68)		Pena, A; Radu, C; Ostahie, B	Second-order Floquet topological phases and corner states based on spatial symmetries in honeycomb lattices in the presence of spin-orbit coupling	This work was supported by grants of the Ministry of Research, Innovation, and Digitization through the Core Pro-gram PC2-PN23080202 within PNCDI 2022-2027.	PHYSICAL REVIEW B,111 https://dx.doi.org/10.1103/PhysRevB.111.155128	2025
69)		Boni, AG; Chirila, CF; Filip, LD; Botea, MI; Radu, C; Popescu, DG; Husanu, MA; Hrib, L; Trupina, L; Pintilie, I; Pintilie, L	Steady state negative capacitance in p-n ferroelectric junctions	This research was funded by Core Program, component project PN23080202, funded by Romanian Ministry of Research, Innovation and Digitization.	ACTA MATERIALIA,298 https://dx.doi.org/10.1016/j.actamat.2025.121177	2025
70)		Velea, A; Simandan, ID; Mihai, C; Baibarac, M; Vaduva, M; Udrescu, A; Smaranda, I; Bocirnea, AE; Tite, T; Zaki, MY; Kuncser, A; Sava, F	Large-scale synthesis of monolayer WS2 by low-temperature sulfurization of oxidized magnetron sputtered monolayer W precursors in a microreactor	This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project PC3-PN23080303 and the Executive Unit for Financing Higher Education, Research, Development, and Innovation (UEFISCDI) within the framework of Project PN-IV-P7-7.1-PED-2024-2412 (Contract No. 11PED/2025).	NANOTECHNOLOGY,36 https://dx.doi.org/10.1088/1361-6528/ade25f	2025
71)		Popescu, T	On the motion of classical and quantum complex scalar waves in non-homogeneous media	This work was supported by the Romanian Ministry of Research and Innovation through the National Core Program PN23080101, contract no. 28N/12.01.2023.	EUROPEAN PHYSICAL JOURNAL PLUS,140 https://dx.doi.org/10.1140/epjp/s13360-025-06699-x	2025
72)		Mihai, C; Simandan, ID; Sava, F; Tite, T; Bocirnea, A; Vaduva, M; Zaki, MY; Baibarac, M; Velea, A	Fabrication of High-Quality MoS2/Graphene Lateral Heterostructure Memristors	This work was supported by a grant of the Ministry of Research, Innovation and Digitization, CCCDI-UEFISCDI, project number PN-IV-P7-7.1-PED-2024-2412 (contract no. 11PED/2025), within PNCDI IV and the Romanian Ministry of Research, Innovation, and Digitalization for the Core Program of the National Institute of Materials Physics through Project PC3-PN23080303.	NANOMATERIALS,15 https://dx.doi.org/10.3390/nano15161239	2025
73)		Handor, S; Tomulescu, AG; Stancu, V; Razouk, A; Galca, AC; Leonat, LN	Gas-Assisted Spray Fabrication of Reticulated TiO2 Scaffolds for Perovskite Solar Applications	This study was conducted entirely at the Laboratory of Complex Heterostructures and Multifunctional Materials from NIMP Romania. This work is funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation, and Digitization through Project PC3-PN23080303. S.H. acknowledges the Romanian Ministry of Foreign Affairs and Agence Universitaire de la Francophonie for the Eugen Ionescu research and mobility grant at NIMP.	MICROMACHINES,16 https://dx.doi.org/10.3390/mi16060685	2025
74)		El Khouja, O; Popescu, B; Assahsahi, I; Negrila, CC; Leonat, LN; Nouneh, K; Touhami, ME; Galatanu, A; Galca, AC	Improved sulfurization process for enhancing the microstructure and transport properties of spray pyrolysis-deposited Cu2ZnSnS4 films	O.E.K. acknowledges the receipt of the OEA grant AF-15/20-01 from the Abdus Salam International Centre for Theoretical Physics, Trieste, Italy. All authors acknowledge the funding from Moroccan Ministry of Higher Education and Research and Centre National pour la Recherche Scientifique et Technique in the framework of PPR/37/2015 project, from Romanian National Authority for Research (Autoritatea Nationala pentru Cercetare) through the Core Program PN19-03 (contract No. 21 N/February 08,2019) and Core project PC3-PN23080303, and from Unitatea Executiva pentru Finantarea Invatamantului Superior, a Cercetarii, Dezvoltarii si Inovarii (UEFISCDI) PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 February 09, 2021) and ERANET-M-3-ERANET-Ligthcell (contract No. 19/March 15, 2024) projects. All authors acknowledge the COST Action Research and International Networking project "Emerging Inorganic Chalcogenides for Photovoltaics (Renew-PV)," CA21148, supported by COST (European Cooperation in Science and Technology). The XPS measurements were performed using the Romanian National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	CERAMICS INTERNATIONAL,51, pp+47818-47829 https://dx.doi.org/10.1016/j.ceramint.2025.08.041	2025
75)		Leote, RJB; Sanz, CG; Diculescu, VC; Barsan, MM	Electrochemical assay for the quantification of anticancer drugs and their inhibition mechanism	Financial support from the Executive Agency for Higher Education, Research, Development and Innovation Funding (UEFISCDI) , Romania, Project code: NANOBIOSURF-SMIS 103528 and Core Program of the National Institute of Materials Physics under the Project PC1-PN23080101.	METHODS,241, pp+13-23 https://dx.doi.org/10.1016/j.ymeth.2025.05.002	2025
76)		Akabbouch, L; El Khouja, O; Assahsahi, I; Dassallem, S; Ait-alla, Y; Fahoume, M; Tite, T; Galca, AC; Nouneh, K	Charge storage mechanism and supercapacitive behavior of transparent vanadium pentoxide thin films in various aqueous electrolytes	L.A. acknowledges the receipt of the AF-106_24_02 grant financed by Abdus Salam International Centre for Theoretical Physics, Trieste, Italy, from the Centre International de Formation et de Recherche Avance es en Physique, subsidiary of National Institute of Materials Physics, Magurele, Romania. All authors acknowledge the funding from Moroccan Ministry of Higher Education and Research and Centre National pour la Recherche Scientifique et Technique in the framework of PPR/37/2015 project, and from Romanian National Authority for Research (Autoritatea Nationala pentru Cercetare) through the Core project PC3-PN23080303 and UEFISCDI PN-III-P2-2.1-PED-2019-4519 project.	RESULTS IN ENGINEERING,28 https://dx.doi.org/10.1016/j.rineng.2025.107836	2025
77)		Ghica, C; Stefan, M; Stanoiu, A; Simion, CE; Vlaicu, ID; Apostol, NG; Mihalcea, CG; Iacoban, AC; Florea, OG; Bulat, S; Ghica, D	Tailoring surface defects and faceting in SnO2 nanocrystals to improve their NO2 sensing potential	This work was funded by the Ministry of Research, Innovation and Digitization CNCS-UEFISCDI through the Core Program of the National Institute of Materials Physics, Project PC1-PN23080101 and the project PN-III-P4-PCE-2021-0384 within PNCDI III. The contribution of C.G.M. to this work is part of the PhD "Nanostructured materials for gas sensing: correlations between functional, electronic and microstructural properties" supported by CERIC-ERIC.	SURFACES AND INTERFACES,72 https://dx.doi.org/10.1016/j.surfin.2025.107212	2025
78)		Sandu, V; Craciun, L; Ivan, I; Badea, AM; Chidthong, R; Mihai, F; Aldica, GV	Effect of Proton Energy on the Superconducting Properties of MgB2 Submitted to Proton Beams at a Constant Fluence	Authors acknowledge support from MCI-UEFISCDI Romania through Core Program PC2-PN23080202 at NIMP, COST Action 19108 and COST Action 21144/European Cooperation in Science and Technology, PRIN 2022 PNRR Project QUESTIONs Grant No P2022KWFBH/Governo Italiano. Part of the work was supported by PN 23210202 at HH-NINPE.	JOURNAL OF SUPERCONDUCTIVITY AND NOVEL MAGNETISM,38 https://dx.doi.org/10.1007/s10948-025-07029-z	2025
79)		Sandu, V; Craciun, L; Ivan, I; Ionescu, AMB; Chidthong, R; Mihai, F; Aldica, GV	Relaxation of the Irreversible Magnetization in Proton-Irradiated MgB2	The authors acknowledge the support from MCI-UEFISCDI Romania through Core Program PC2-PN23080202 at NIMP, COST Action 19108 and COST Action 21144. Part of the work was supported by PN23210201 and PN 23210202 at HH-NINPE.	JOURNAL OF SUPERCONDUCTIVITY AND NOVEL MAGNETISM,38 https://dx.doi.org/10.1007/s10948-024-06877-5	2025
80)		Alimenti, A; Silva, E; Torokhtii, K; Garcia, PV; Badica, P; Crisan, A; Grigoroscuta, MA; Pompeo, N	Microwave surface resistance in MgB2: Effect of Te and cubic-BN addition on flux flow and pinning	The authors thank Dr. M. Burdusel and Dr. G. Aldica for their assistance with sample preparation. Work partially supported by INFN - Commissione Scientifica Nazionale 5 projects 'SAMARA' and 'SuperMAD', COST Action CA19108-Hi-SCALE, and Italian National Operational Programme (PON) on Research and Innovation 2014-2020-Action IV.6. P.B., A.C., and M.A.G. acknowledge UEFISCDI Romania through Core Program PC2-PN23080202 and project POC37697 no. 28/01.09.2016 REBMAT. Data for the phase diagram of MgB2 and comparison to Nb3Sn was supported by Rome Technopole.	SUPERCONDUCTIVITY,14 https://dx.doi.org/10.1016/j.supcon.2025.100170	2025
81)		Spataru, T; Somacescu, S; Preda, L; Culita, D; Osiceanu, P; Moga, OG; Neatu, F; Neatu, S; Mirea, AG; Kuncser, A; Petrea, N; Somoghi, V; Florea, M; Spataru, N	Controlled morphology and surface chemistry of Ni supported on SnO2 and SnO2-graphene by a versatile deposition method for enhanced bioethanol electrooxidation	This work was supported by the Romanian National Authority for Scientific Research and Innovation, UEFISCDI, project number PN-III-P2-2.1-PTE-2021-0592 (BioenergCell) . MF, AGM, FN, SN and AK acknowledge the Romanian Ministry of Research and Innovation through the National Core Program 2023-2026 (contract PC3-PN23080303) . Part of this study was performed within the framework of the 4.10.22 and 5.15.32 topics from research program of the Institute of Physical Chemistry-Ilie Murgulescu of the Romanian Academy.	JOURNAL OF POWER SOURCES,661 https://dx.doi.org/10.1016/j.jpowsour.2025.238635	2026
82)		Giurgiu, D; Smaranda, I; Udrescu, A; Baibarac, M	Traceability of Diamonds Using UV-VIS-NIR Spectroscopy	This work was funded by the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitization through the Project with ID: PC3-PN23080303.	MINERALS,15 https://dx.doi.org/10.3390/min15101091	2025
83)		Onea, M; Iacob, N; Schinteie, G; Molares, MET; Matei, E; Kuncser, V; Enculescu, I	Novel insights into the distinct magnetic configurations of polycrystalline Ni nanowires produced by a template approach at varying electrodeposition potentials	The authors acknowledge the financial contribution of the Romanian Ministry of Research, Innovation and Digitalization through PNRR-funded project no. 766083/23.05.2023, and through Nucleu programme PC1-PN23080101.	JOURNAL OF ALLOYS AND COMPOUNDS,1044 https://dx.doi.org/10.1016/j.jallcom.2025.183959	2025
84)		Ungeheuer, K; Bocirnea, AE; Marszalek, KW; Tokarz, W; Pikulski, DA; Kakol, Z; Galca, AC	XPS study and electronic structure of non-doped and Cr+ ion implanted CuO thin films	This research was funded by "Excellence Initiative-Research University" program for AGH University of Krakow, project no. 16.16.230.434 at AGH University ok Krakow, Romanian Ministry of Research, Innovation and Digitalization Core Project PC3-PN23080303 and UEFISCDI PN-III-P4-ID-PCE-2020-0827 (Contract no. PCE74 09/02/2021) project	SCIENTIFIC REPORTS,15 https://dx.doi.org/10.1038/s41598-025-08421-4	2025
85)		Soare, EM; Stanciu, CA; Patru, RE; Surdu, VA; Horchidan, N; Mitoseriu, L; Pintilie, I; Vasile, BS; Nicoara, AI; Trusca, RD; Ianculescu, AC	Composition-dependent structural, microstructural and functional characteristics of fine-grained BaTi1-xHfxO3 ceramics consolidated by Spark Plasma Sintering	The authors are grateful to Romanian Ministry of Research, Innovation and Digitization through the National Programme "Installations and Strategic Objectives of National Interest" for access to infrastructure. N.H. and L.M. acknowledge the Romanian grant PN-IV-P2-2.1-TE-2023-1488 (HARVENERGY). R.E.P and I.P acknowledge the financial support from the Core Program of the National Institute of Materials Physics 2023-2026, Project PC2-PN23080202, funded by the Romanian Ministry of Research, Innovation and Digitization.	JOURNAL OF THE EUROPEAN CERAMIC SOCIETY,45 https://dx.doi.org/10.1016/j.jeurceramsoc.2025.117600	2025
86)		Tamin, M; El Khouja, O; Guemmaz, M; Tamin, C; Bocirnea, AE; Asshsahi, I; Chaumont, D; Galca, AC	Towards a wide bandgap absorber: structural, morphological, and optical investigation of Ag-alloyed Cu2ZnSnS4 thin films	M. T. and M. G. acknowledge the financial support from the Algerian Ministry of Higher Education and Scientific Research (MESRS). M. T. acknowledges the receipt of the AF-106_25_01 grant financed by Abdus Salam International Centre for Theoretical Physics, Trieste, Italy, from the Centre International de Formation et de Recherche Avancees en Physique, subsidiary of National Institute of Materials Physics, Magurele, Romania. M. T. acknowledges the Romanian Ministry of Foreign Affairs and the Agence Universitaire de la Francophonie for the Eugen Ionescu research and mobility grant at the National Institute of Materials Physics. Authors acknowledge the COST Action Research and International Networking project "Emerging Inorganic Chalcogenides for Photovoltaics (RENEW-PV)", CA21148, supported by COST (European Cooperation in Science and Technology). NIMP authors acknowledge funding from Autoritatea Nationala pentru Cercetare (Romanian National Authority for Research) through the Core Programme PC3-PN23080303 project, and from Unitatea Executiva pentru Finantarea & Icirc;nvatamantuluiSuperior, a Cercetarii, Dezvoltarii si Inovarii (UEFISCDI) through ERANET-M-3-ERANET-Ligthcell (Contract No. 19/15.03.2024) project. The XPS measurements were performed using the Romanian National Interest Setup "System of complex XPS/ESCA installations and research using synchrotron radiation".	SUSTAINABLE ENERGY & FUELS,, pp+- https://dx.doi.org/10.1039/d5se01303h	2025
87)		Gudmundsson, V; Mughnetsyan, V; Goan, HS; Chai, JD; Abdullah, NR; Tang, CS; Moldoveanu, V; Manolescu, A	Spin configuration of an array of quantum rings controlled by cavity photons	Developed Project (JDP) and the support from the Physics Division, National Center for Theoretical Sciences, Taiwan. J.-D.C. acknowledges support from the National Science and Technology Council, Taiwan under Grant No. NSTC 113-2112-M-002-032. J.-D.C. is also grateful for the support from the Physics Division, National Center for Theoretical Sciences, Taiwan. C.-S.T. acknowledges funding support by the National United University through Contract No. 113-NUUPRJ-01. V. Moldoveanu acknowledges financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC2-PN23080202.r e-Infrastructure (IREI) ". The computations were performed on resources provided by the Icelandic High Performance Computing Center at the University of Iceland. V. Mughnetsyan and V.G. acknowledge support by the Higher Education and Science Committee of Armenia (Grant No. 24LCG-1C004) . V.G. acknowledges support for his visit to the National Taiwan University from the National Science and Technology Council, Taiwan under Grants No. NSTC 113-2811-M-002-001 and No. NSTC 112-2119-M-002-014. H.-S.G. acknowledges support from the National Science and Technology Council, Taiwan, under Grants No. NSTC 113-2112-M-002-022-MY3, No. NSTC 113-2119-M-002-021, and No. NSTC 114-2119-M-002-017-MY3, from the US Air Force Office of Scientific Research under Award No. FA2386-23-1-4052 and from the National Taiwan University under Grants No. NTU-CC-114L8950 and No. NTU-CC-114L895004. H.-S.G. is also grateful for the support of the "Center for Advanced Computing and Imaging in Biomedicine (NTU-114L900702) " through the Featured Areas Research Center Program within the framework of the Higher Education Sprout Project by the Ministry of Education (MOE) , Taiwan, the support of Taiwan Semiconductor Research Institute (TSRI) through the Jointr Developed Project (JDP) and the support from the Physics Division, National Center for Theoretical Sciences, Taiwan. J.-D.C. acknowledges support from the National Science and Technology Council, Taiwan under Grant No. NSTC 113-2112-M-002-032. J.-D.C. is also grateful for the support from the Physics Division, National Center for Theoretical Sciences, Taiwan. C.-S.T. acknowledges funding support by the National United University through Contract No. 113-NUUPRJ-01. V. Moldoveanu acknowledges financial support from the Core Program of the National Institute of Materials Physics, granted by the Romanian Ministry of Research, Innovation and Digitalization under the Project PC2-PN23080202.	PHYSICAL REVIEW B,111 https://dx.doi.org/10.1103/PhysRevB.111.115304	2025
88)		Nitescu, O; Simkovic, F	Semi-empirical formula for two-neutrino double-β decay	O.N. acknowledges support from the Romanian Ministry of Research, Innovation, and Digitalization through Project No. PN 23086410404/2023. F.& Scaron;. acknowledges support from the Slovak Research and Development Agency under Contract No. APVV-22-0413, VEGA Grant Agency of the Slovak Republic under Contract No. 1/0618/24, and by the Czech Science Foundation (GACR) , Project No. 24-10180S.	PHYSICAL REVIEW C,111 https://dx.doi.org/10.1103/PhysRevC.111.024307	2025
89)		Nitescu, O; Simkovic, F	Radiative and exchange corrections for two-neutrino double-β decay	The authors thank V. Tretyak for valuable and fruitful discussion during the early stages of this work. O.N. acknowledges support from the Romanian Ministry of Research, Innovation, and Digitalization through Project No. PN23 21 01 01/2023 and Project PNRR-I8/C9-CF264, Contract No. 760100/23.05.2023 (The NEPTUN project) . F.S. acknowledges support by the Slovak Research and Development Agency under Contract No. APVV-22-0413, VEGA Grant Agency of the Slovak Republic under Contract No. 1/0618/24, and the Czech Science Foundation (GACR) , Project No. 24-10180S.	PHYSICAL REVIEW C,111 https://dx.doi.org/10.1103/PhysRevC.111.035501	2025
90)		Budaca, R; Budaca, AI	Harmonic chiral vibration in triaxial nuclei	This work was supported by grants of the Ministry of Research, Innovation and Digitization, CNCS-UEFISCDI, project number PN-IV-P1-PCE-2023-0273, within PNCDI IV, and project number PN-23-21-01-01/2023.	PHYSICS LETTERS B,868 https://dx.doi.org/10.1016/j.physletb.2025.139794	2025

Participare la Conferinta Nucleu organizata la Bistrita, 30-31 mai 2024, prezentarea rezultatelor.

Prezentare Nucleu raport 2023-diacritice

Prezentare_Nucleu raport 2024 (septembrie 2025 Timisoara)-memristori

INCDFM a fost organizator principal al ROCAM 2024

https://rocam.fizica.unibuc.ro/ROCAM/

Invitati speciali:

Professor Klaus von Klitzing, Nobel prize for Physics in 1985

Klaus von Klitzing was born in 1943 in Schroda. He received his PhD from the University of Würzburg in 1972. After research stays in England, USA and France he became a Professor at the Technical University in Munich in 1980. Between 1985 - 2018 he was director at the Max Planck Institute for Solid State Research in Stuttgart, Germany. He has been awarded the Nobel Prize in Physics in 1985 for the discovery of the Quantum Hall Effect. This quantum effect opened a new research field and plays a major role in metrology, not only as a resistance standard R_K=h/e² with the Planck constant h and the elementary charge e, but also in connection with the realization of a new SI system, based on fundamental constants.
He has published more than 500 papers in the field of semiconductor quantum structures and received a large number of national and international awards. He holds 22 honorary degrees and is a foreign member of the National Academy of Sciences of the United States of America, the Russian Academy of Sciences, the Royal Society of London, the Chinese Academy of Sciences and the Pontifical Academy of Sciences.

Professor Gerard Albert Mourou, Nobel prize for Physics in 2018

Gérard Mourou was born in Albertville, France. He studied physics at the University of Grenoble and then at the Université Pierre-et-Marie-Curie in Paris, where he earned his PhD in 1973. He later moved to the United States and became a professor at the University of Rochester, where he did his Nobel Prize awarded work along with Donna Strickland. He subsequently worked at the University of Michigan and the École Polytechnique in Paris. The sharp beams of laser light have given us new opportunities for deepening our knowledge about the world and shaping it. In 1985, Donna Strickland and Gérard Mourou succeeded in creating ultrashort high-intensity laser pulses without destroying the amplifying material. First they stretched the laser pulses in time to reduce their peak power, then amplified them, and finally compressed them. The intensity of the pulse then increases dramatically. Chirped pulse amplification has many uses, including corrective eye surgeries. He advanced laser science in Europe through his proposal of the Extreme Light Infrastructure, which consists of three facilities with extremely powerful lasers in the Czech Republic, Romania, and Hungary.

Professor Rodrigo Ferrao de Paiva Martins, Director of CENIMAT|i3N & CEMOP/UNINOVA, President of European Academy of Sciences - EurASc

Rodrigo Martins was born in Nova Lisboa, Angola. He got in 1974 the Honours degree in Electronics Engineering, Telecommunications and applied Electronics by U. Luanda, Angola/Portugal. In 1977 he got the MSc degree in Semiconductor Materials, by the University of Dundee, Scotland, with a thesis entitled “Photoconductivity in P Doped and Undoped Amorphous Germanium” under supervision of Prof. W. Spear, 1977 Euro physicist award. In 1982 he obtained the Ph.D. in Energy conversion and Semiconductors, by New University of Lisbon, Portugal. PhD thesis title was “a-Si:H solar cells processing and characterization”. In 1988 he got the Habilitation in Semiconductor Materials and Microelectronics, by New University of Lisbon, Portugal. Rodrigo Martins is now the President of the EurASc - European Academy of Sciences, Full Professor of Faculty of Sciences and Technology of New University of Lisbon in the field of Advanced Functional Materials and Microelectronics, Director of the Centre of Excellence in Microelectronics and Optoelectronics Processes of the Institute of New Technologies – CEMOP and Director of the Centre of Advanced Materials, CENIMAT. He is also President of the administration board of the Portuguese cluster in Advanced Materials (NANOMAT), member of the administration board of the Portuguese cluster on Batteries (BatPower), Chair of the European Committee Affairs of European Materials Research Society and Editor in Chief of the Journal Materials Discover, from Nature-Springer, member of the international advisory board of Advanced Electronics Materials. Rodrigo Martins published more than 1000 papers and has an h-index of 92.

Professor Elvira Fortunato, Department of Materials Science of the Faculty of Science and Technology of the NOVA University of Lisbon

Elvira Fortunato, Minister of Science, Technology and Higher Education of the government of Portugal, is a Professor at the Department of Materials Science of the Faculty of Science and Technology of the NOVA University of Lisbon. She has pioneered European research in transparent electronics using sustainable materials and environmentally friendly technologies. In 2008, in the 1st edition of the European Research Council (ERC) grants, she won an Advanced Grant with the INVISIBLE project, considered by the European Commission a success story. In the same year she demonstrated with his group the possibility of making the first paper transistor, starting a new field in the area of paper electronics. In 2018 she received the second Advanced Grant with the DIGISMART project. With more than 850 scientific publications, 58 patents conceived, Elvira Fortunato has received, in recent years, more than 30 international awards and distinctions for her work, including the decoration with the degree of Grand Officer of the Order of Prince Henry the Navigator, by the President of the Portuguese Republic in 2010; the Blaise Pascal Medal in 2016; the Czochralski Prize in 2017; the 2020 Pessoa Prize; the European Commission's Horizon Impact Award in 2020 with the INVISIBLE project; the Strait of Magellan Prize from the Government of Chile in 2020; the International Engineering Award in 2021; the Human Rights Award by the Assembly of the Republic in 2021; The Materials Frontiers Award 2022, given by IUMRS and Chinese-MRS; the SPM career recognition award 2022. Moreover, her work in the area of green electronics and paper electronics has been considered one of the 20 best ever innovators in Europe. She is an elected member of the Academy of Engineering, the European Academy of Sciences, the Lisbon Academy of Sciences and the Academia Europaea. She was a member of the Board of Trustees of the Luso-American Development Foundation between 2014 and 2021. She was a member of the High-Level Group for the European Commission's Scientific Advice Mechanism between 2015 and 2020. She has coordinated several national and international projects, including her pioneering activity at Universidade Nova de Lisboa in the area of equal opportunities through the SPEAR project, a European platform for the support and implementation of plans for gender equality in higher education institutions.

Professor Thomas Schroeder, Director IKZ Berlin

Thomas Schroeder is Scientific Director of the Leibniz-Institut für Kristallzüchtung (IKZ) in Berlin and Professor in Crystal Growth at the Institute of Physics of the Humboldt University zu Berlin. His R&D interests are focused on innovations in crystalline materials (numerical simulation, plant engineering, growth techniques etc.) and innovations by crystalline materials (crystal preparation techniques, applications of crystalline materials in electronics and photonics etc.). Since 2004, Thomas Schroeder worked in the Materials Science Department of the Leibniz-Institute for innovative Microelectronics (IHP) in Frankfurt (Oder) where he became department head in 2009 and full professor in semiconductor physics at the Technical University of Brandenburg in Cottbus in 2012. The PhD thesis was carried out from 1998 to 2001 at the Fritz-Haber-Institute of the Max-Planck Society in Berlin on catalytic processes. He received a diploma degree in Chemistry in 1996 and a diploma degree in Physics in 1998 from the University of Tübingen. He passed several research and PostDoc stays in European institutes in Italy, Spain and France.

Professor Paolo Fornasiero, University of Trieste, Italy

Paolo Fornasiero is Professor of Inorganic Chemistry at the University of Trieste. His scientific interests are in the field of inorganic chemistry, with attention to the design and development of multi-functional nano-systems and their advanced applications in energy related processes and environmental heterogeneous catalysis. Paolo Fornasiero has published more than 300 research articles, 19 book chapters, and holds 4 patents. Since 2022 he is member of the Academia Europaea and from 2021 he is member of the European Academy of Sciences. He received various awards including the 2005 Nasini Medal, the 2013 Chiusoli Medal and the Malatesta award from the Italian Chemical Society, the 2016 Heinz Heinemann Award from the International Association of Catalysis Societies.

Professor Adrian M. Ionescu, EPFL Lausanne, Switzerland

Adrian M. Ionescu is a Full Professor at Ecole Polytechnique Fédérale de Lausanne (EPFL), Switzerland. He received the BS & MS in Electronics and Telecommunications in 1989 from University ‘Politehnica’ Bucharest, Romania. He holds two PhDs: in Microelectronics, from UPB (1994) and in Physics of semiconductors from National Polytechnic Institute Grenoble (1997). He is director of Nanoelectronic Devices Laboratory of EPFL, Switzerland. His group pioneered novel device concepts and technologies for energy efficient Edge Artificial Intelligence and Internet of Things applications. He published more than 600 articles. He is recipient of IBM Faculty Award 2013 and of André Blondel Medal 2009. In 2015 he was elected member of Swiss Academy of Technical Sciences. He received an ERC Advanced Grant in 2016, a ERC Synergy grant in 2023 and the EDL IEEE George Smith Award in 2017. He is an IEEE Fellow and he served as Editor of IEEE TED and as member of PUB committee of EDS. He is a member of the Editorial Board of Proceedings of IEEE. Recently, he received the prestigious 2024 IEEE Cledo Brunetti field Award.

Professor Rafal Dunin-Borkowski, Institute for Microstructure Research and the Ernst Ruska-Centre for Microscopy and Spectroscopy with Electrons in Forschungszentrum Jülich, Germany

Rafal Dunin-Borkowski is Director of the Institute for Microstructure Research and the Ernst Ruska-Centre for Microscopy and Spectroscopy with Electrons in Forschungszentrum Jülich, Germany. His Ph.D. (1990-1994) was carried out in the Department of Materials Science and Metallurgy in the University of Cambridge. After working as a postdoctoral research scientist in the University of Cambridge, Arizona State University and Oxford University, between 2000 and 2006 he held a Royal Society University Research Fellowship in the University of Cambridge. Between 2007 and 2010, he led the establishment of the Center for Electron Nanoscopy in the Technical University of Denmark. He specializes in the characterization of magnetic and electronic materials at the highest spatial resolution using advanced transmission electron microscopy techniques, including aberration-corrected high-resolution transmission electron microscopy and off-axis electron holography. In 2009 he was awarded the Ernst Ruska Prize of the German Society for Electron Microscopy. In 2012, 2017 and 2019 he was awarded Advanced, Proof of Concept and Synergy Grants by the European Research Council.

Professor Marin Alexe, Department of Physics, University of Warwick, Coventry UK.

Professor Marin Alexe has been appointed as Chair of Functional Materials at the University of Warwick after spending about 18 years at the Max Planck Institute of Microstructure Physics-Halle, Germany (1996-2013) and about 10 years at the National Institute of Materials Physics, Romania (1987-1996). He has received the PhD degree from the Institute of Atomic Physics Bucharest in 1995. His research interest is physics and engineering of ferroelectrics, complex oxide thin films for information technology and integration of functional materials for oxide electronics. He has published more than 325 papers and 2 books. In the last five years he has given more than 30 invited talks and lectures at international meeting and conferences. He was recently awarded Wolfson Research Merit and Theo Murphy “Blue Sky” Awards of the Royal Society as well as Alexander von Humboldt research Award.

Dr. Nicolae Barsan, Institute of Physical and Theoretical Chemistry, University of Tübingen, Germany

Nicolae Barsan received his diploma in Physics from the Faculty of Physics of the Bucharest University in 1982. In 1993 his received his Ph.D. in Solid State Physics from the Institute of Atomic Physics, Bucharest, Romania. Since 1995 he has been a senior researcher at the Institute of Physical Chemistry of the University of Tuebingen, where he and Udo Weimar lead the Gas Sensors Group. Dr Barsan’s research focuses on the understanding and application of surface interactions of materials with gases. At the Institute of Physical Chemistry, he advanced his interest in the basic understanding of sensing with metal oxide pioneering the operando approach that employs a host of spectroscopic and phenomenological characterization techniques, applied in sensor operation conditions. On the technology side, he invented the hybrid microsensor production technology combining pre-processed powders-based sensing layers and micromachined Si transducers; to date, more than 50 million devices, of the type invented by Dr. Barsan, were commercialized by AppliedSensors (currently owned by AMS, Austria). In 2006 he co-founded AO Action, which is a Steinbeis Transfer Centre working in the exploitation of advanced sensing technologies. The Centre provides commercial services to private clients. Dr. Barsan is one of the two directors and currently runs 3 projects for industrial customers.

Cereri de brevet depuse in 2023

	Nr.propuneri brevete	Anul înregistrării	Autorul/Autorii	Numele propunerii de brevet
OSIM	A00049	06.02.2023	Iuga Alin Romulus, Slav Adrian, Palade Cătălin	Metodă de măsurare a presiunii de vid preliminar cu un traductor de ultrasunete pentru aer cu element bimorf
	A00217	02.05.2023	Cotîrlan-Simioniuc Costel	Modulator electrooptic cu modificarea continuă a indicelui de refracție cu valori supraunitare
	A00284	07.06.2023	Ciobotaru Iulia Corina, Besleaga Stan Cristina, Ciobotaru Constantin Claudiu	Procedeu de obtinere a pulberilor nanocristaline hibride de perovskiti halogenati cu stibiu pentru aplicatii in domeniul diodelor organice electroluminescente
	A00332	29.06.2023	Udrescu Adelina, Burlanescu Teodora, Smaranda Ion, Lorinczi Adam, Galatanu Andrei, Palade Petru, Baibarac Mihaela	Metoda de sinteza a filmelor bazate pe compozitul poli(orto- toluidina)/WS₂
	A00333	29.06.2023	Sava Florinel, Buruiana Angel Theodor, Mihai Oana Claudia, Matei Elena, Tite Teddy, Velea Alin	Procedeu pentru producerea de materiale cristaline cvasi-bidimensionale cu cheltuieli de producție reduse
	A00334	29.06.2023	Vaduva Mirela, Burlanescu Teodora, Smaranda Ion, Baibarac Mihaela	Metoda de sinteza a filmelor bazate pe compozitul poli(orto- toluidina)/oxid de grafenă redus
	A00753	28.11.2023	Popescu Bogdan, Tolea Felicia, Tolea Mugurel, Enculescu Maria-Monica, Sofronie Mihaela	Benzi metalice pe bază de Ni-Mn-Sb cu dopaj de Co şi Cu care prezintă proprietăţi de memoria formei şi magnetostricţiune scalabilă pentru utilizarea in senzoristică. procedura de sintetizare
	A00773	29.11.2023	Iuga Alin Romulus, Kuncser Victor Eugen, Iacob Nicusor, Lazar Marian, Ighigeanu Adelina Maria, Schinteie Gabriel Alexandru	Dispozitiv cu izolare quasi-adiabatica pentru cresterea preciziei masuratorilor ratei specifice de absorbtie a unei suspensii de nanoparticule magnetice
	A00774	29.11.2023	Amarande Luminița, Stan George, Popa Adrian Claudiu, Miclea Corneliu Florin, Nedelcu Liviu, Besleagă-Stan Cristina, Geambașu Dragoș Cezar, Cioangher Marius Cristian, Leonat Lucia, Toma Vasilica	Materiale piezoceramice de tip titanat de bariu dopat cu Ga cu aplicații în osteogeneză și procedeu de obținere
	A00787	04.12.2023	Mihai Claudia, Buruiana Angel-Theodor, Bocirnea Elena Amelia, Sva Florinel, Matei Elena, Tite Teddy, Simandan Iosif-Daniel, Galca Aurelian Catalin, Velea Alin	Procedeu în două etape pentru fabricarea heterostructurilor de Grafenă\MoS₂
	A00817	08.12.2023	Evanghelidis Alexandru, Beregoi Mihaela, Ionut Enculescu	Dispozitiv de colectare a fibrelor electrofilate cu grad înalt de aliniere geometrică și precizie cantitativă ridicată la densități mici
EPO	EP23162517	17.03.2023	Badica Petre, Grigoroscuta Mihai-Alexandru, Burdusel Mihail, Costescu Maria Ruxandra	Process for obtaining a layered composite material, layered composite material and its uses
	EP23465550	10.10.2023	Ciobotaru Iulia Corina, Ciobotaru Constantin Claudiu, Evanghelidis Alexandru, Polosan Silviu Pavel, Enculescu Ionut Marius, Casarica Angela	Transparent and flexible multilayer diode device based on electrospun polymer fibers and organometallic compounds and process for manufacturing such device
	EP23210502.3	17.11.2023	Buruiana Angel-Theodor, Bocirnea Amelia Elena, Kuncser Andrei, Tite Teddy, Matei Elena, Mihai Claudia, Gâlcă Aurelian Cătălin, Velea Alin	Energy efficient memristor based on orthorhombic tin selenide (SnSe) micrometric flakes, method of obtaining thereof and applications thereof
WIPO

USPTO

Cereri de brevet depuse in 2024

	Nr. propuneri brevete	Anul înregistrării	Autorul/Autorii	Numele propunerii de brevet
OSIM	A00078	28.02.2024	Costas Liliana-Andreea, Preda Nicoleta-Roxana, Botta Oana-Daciana, Ciobotaru Iulia-Corina, Enculescu Ionut-Marius	Procedeu de obținere a unei diode electroluminiscente pe bază de matrici de nanofire miez-coajă de tip oxid de zinc și seleniura de zinc obținute pe electrozi metalici interdigitați
OSIM	A000079	28.02.2024	Rasoga Oana, Bunea Mihaela-Cristina, Dragoman Daniela, Dinescu Miron-Adrian, Breazu Carmen-Steliana, Stavarache Ionel, Baracu Angela-Mihaela	Procedeu de fabricare de metasuprafețe reglabile care pot lucra ca surse emițătoare de lumină în domeniul infraroșu folosind substrat din polimer siliconic
OSIM	A00087	04.03.2024	Kuncser Andrei Cristian, Badica Petre, Bulat Stefan, Radu Cristian	Nou procedeu de optimizare a hiperparametrilor unei rețele neuronale pentru identificarea/etichetarea de imagini
OSIM	A00088	04.03.2024	Enculescu Monica, Bunea Mihaela-Cristina, Beregoi Mihaela, Enculescu Ionut	Procedeu de fabricare a structurilor spongioase de polidimetilsiloxan cu geometrie variabilă utilizând matrice de sacrificiu
OSIM	A00110	18.03.2024	Stanoiu Adelina, Florea Ovidiu Gabriel, Simion Cristian Eugen, Dinu Ion Viorel	Senzor de prag pentru detecția CO2 și procedeu de obținere
OSIM	A00136	27.03.2024	Iacob Nicusor, Sasu Gheorghita, Ivan Ioan Alexandru, Schinteie Gabriel Alexandru, Kuncser Victor Eugen	Dispozitiv de generare prin detonatii controlate a jeturilor de apă cu simetrie cilindrică puternic perforante
OSIM	U00016	27.03.2024	Lazar Marian, Dobrescu Gabriel, Ighigeanu Adelina Maria, Sasu Gheorghita, Ivan Ioan Alexandru, Iacob Nicusor, Kuncser Victor Eugen	Țintă mobilă
OSIM	A00152	01.04.2024	Enache Teodor-Adrian, Bunea Mihaela Cristina, Matei Elena, Boukhoubza Issam	Biosenzor electrochimic pentru detecția enzimei reductaza sulfoxidului de metionina
OSIM	A00166	09.04.2024	Cotirlan-Simionuc Costel, Badea Liviu	Microlaser plasmonic pompat optic având emisie modulată prin nanoantene active
OSIM	A00167	09.04.2024	Simona Somacescu, Tanta Spataru, Nicolae Spataru, Daniela Cristina Culita, Petre Osiceanu, Mihaela Florea, Florentina Neatu, Stefan Neatu, Anca Gabriela Mirea, Nicoleta Petrea, Vasile Somoghi	Anozi de tip SnO2 si SnO2-nanofolii de grafenă decorați cu specii chimice diferite de nichel pentru pilele de combustie de putere mică alimentate cu bioetanaol și procedeele de obținere anozi
OSIM	A00190	18.04.2024	Preda Nicoleta-Roxana, Evanghelidis Alexandru Ionut, Costas Liliana Andreea	Procedeu de obținere a unor fibre de oxizi metalici utilizând șabloane fibrilare electrofilate conținând proteine de tip albumină de ou
OSIM	A00191	18.04.2024	Botta Oana-Daciana, Diculescu Victor Constantin, Enculescu Ionut-Marius, Beregoi Mihaela, Evanghelidis Alexandru Ionut, Matei Elena	Celula electrochimică cu structură fibrilară flexibilă integrată
OSIM	A00204	23.04.2024	Florea Mihaela, Mirea Anca Gabriela, Derbali Sarah, Tomulescu Andrei Gabriel, Pintilie Ioana	Procedeu de fabricare a perovskitilor hibrizi aditivați cu aminoalcooli primari
OSIM	A00232	30.04.2024	Stavarache Ionel, Stoica Toma, Ciurea Lidia Magdalena	Fotodetector sensibil în VIS-NIR pe bază de nanoparticule de germaniu-staniu înglobate în nitrura de siliciu și la un procedeu de obținere a acestuia
OSIM	A00240	10.05.2024	Popescu Dana Georgeta, Husanu Marius-Adrian	Tranzistor din GeTe cu efect de câmp și poartă divizată depus pe semiconductori (Si, ge si SiGe) și metoda de realizare
OSIM	A00249	14.05.2024	Comanescu Cezar, Greculeasa Simona-Gabriela, Stanciu Anda, Vlaicu Ioana Dorina, Locovei Claudiu-Iulian	Procedeu de obținere a unor nanocompozite de tip hidrură complexă metalică și compuși cadre metal-organice și tipuri de sisteme obținute
OSIM	A00272	27.05.2024	Stoica Toma, Stavarache Ionel, Palade Catalin, Slav Adrian, Dascalescu Ioana Maria, Lepadatu Ana-Maria, Ciurea Magdalena Lidia	Structura cu strat 2D-MOS₂ crescut selectiv sensibilă la vapori de acetonă și procedeu de obținere a acesteia
OSIM	A00324	13.06.2024	Bartha Maria Cristina, Batalu Nicolae Dan, Badica Petre, Kuncser Victor Eugen, Alexandru-Dinu Andrei, Grigoroscuta Mihai-Alexandru, Leca Aurel, Sergentu Any Cristina, Necsulescu Daniela Alina	Materiale compozite funcționale cu pulbere de garnet înglobată în matrice polimerică
OSIM	A00325	13.06.2024	Borca Bogdana Lenuta, Locovei Claudiu-Iulian, Patru Roxana Elena, Sofronie Mihaela, Tolea Felicia, Breazu Carmen, Socol Marcela, Iacoban Alexandra Corina	Procedeu de realizare de joncțiuni metal-organice multiferoice verticale
OSIM	A00326	13.06.2024	Costas Liliana-Andreea, Preda Nicoleta-Roxana, Enculescu Ionut Marius	Procedeu de obținere a unui fotodetector pe bază de nanofire singulare miez-coaja de tip oxid de zinc și seleniura de zinc
OSIM	A00327	13.06.2024	Stanculescu Anca-Ioana, Socol Marcela, Breazu Carmen-Steliana, Rasoga Oana-Liliana, Petre (Baiasu) Gabriela-Iuliana, Honciuc Andrei, Solonaru Ana-Maria, Negru Oana-Liliana, Socol Gabriel, Popescu-Pelin Gianina, Stanculescu Florin-Gabriel	Structura de tranzistor cu efect de câmp organic flexibil
OSIM	U00035	13.06.2024	Grigoroscuta Mihai-Alexandru, Badica Petre, Aldica Gheorghe Virgil, Leca Aurel, Lazar Marian, Dobrescu Gabriel, Ighigeanu Adelina Maria	Dispozitiv de magneto-procesare a materialelor în câmp magnetic intens
OSIM	A00351	20.06.2024	Crisan Ovidiu Alexandru, Crisan Alina Daniela, Leca Aurel	Procedeu de obținere și realizare de magnet permanent fără pământuri rare pe bază de MnAlC
OSIM	A00368	27.06.2024	Crisan Ovidiu Alexandru, Crisan Alina Daniela	Tehnologie de sinteză și realizare de magneți pentru retaineri magnetici utilizabili la proteze dentare
EPO	EP24465524.7	03.06.2024	Baibarac Mihaela, Paraschiv Mirela, Florica Stefania, Androne Andreea, Dinescu Monica, Udrescu Adelina	Process for the preparation of screen-printed electrodes modified with oxidized single-walled carbon nanotubes decorated with graphene quantum dots
OSIM	A00587	30.09.2024	Cotirlan-Simionuc Costel	Convertor plexcitoni-fotoni cu cavitate verticală
OSIM	A00408	10.07.2024	Tivig Cristian Ioan, Jipa Florin, Bran Alexandra, Besleaga Cristina, Moisescu Georgeta Mihaela, Axente Emanuel, Stan George, Savopol Tudor, Sima Felix	Dispozitiv microfluidic opto-electronic pentru captarea și separarea celulelor tumorale cu ajutorul pensetei optice și dielectroforezei
OSIM	A000648	30.10.2024	Ghica Daniela, Kuncser Ioana Dorina, Iacoban Alexandra Corina, Mercioniu Ionel-Florinel	Procedeu de preparare a pulberilor nanostructurate de dioxid de staniu având ca precursor SnCl₂, cu morfologie controlată
EPO	EP24207779.0	21.10.2024	Botta Oana-Daciana, Diculescu Victor Constantin, Enculescu Ionut-Marius, Beregoi Mihaela, Evanghelidis Alexandru Ionut, Matei Elena	Electrochemical device with integrated flexibile fibrillary structure

Cereri de brevet depuse in 2025

Nr. Crt.	Titular (Nume şi prenume)	Nr. si data de inregistrare/Titlu brevet	Contract
1	Socol Marcela, Preda Nicoleta-Roxana, Costaș Liliana-Andreea, Stăvărache Ionel, Breazu Carmen-Steliana, Băiașu Gabriela-Iuliana	A00109/24.03.2025 Procedeu de obținere a unor electrozi flexibili nanostructurați conductori transparenți multistrat oxid de zinc/argint/oxid de zinc	9TE/2023 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
2	Cotîrlan-Simionuc Costel	A00110/24.03.2025 Ochelari cu emisie de fotoni pentru regenerarea ochilor	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
3	Smaranda Ion, Udrescu Adelina, Nila Andreea, Bellucci Stefano, Baibarac Mihaela	A00120/31.03.2025 Metoda de preparare a compozitelor bazate pe TiO2 si nanotuburi de carbon cu eficienta ridicata pentru fotodegradarea colorantului rodamina 6G	PNRR -III-C9-20123-18 CF11/27.06.2023 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
4	Smaranda Ion, Burlanescu Teodora, Florica Stefania, Androne Andreea, Baibarac Mihaela, Vaduva Mirela	A00121/31.03.2025 Metoda de preparare a membranelor de policlorura de vinil modificate cu fotocatalizatori in vederea utilizarii lor la adsorbtia si fotodegradarea colorantului rodamina 6G	PNRR -III-C9-20123-18 CF11/27.06.2023 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
5	Kuncser Andrei-Cristian, Kuncser Ioana-Dorina, Badica Petre	A00189/22.05.2025 Procedeu autonom de obtinere a distributiilor de dimensiuni de nanoparticule folosind analiza in timp real a fluxurilor video generate in imagistica de Microscopie Electronica de Transmisie	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
6	Cotîrlan-Simionuc Costel	A00236/10.06.2025 Tehnologie litografica electrohidrodinamica cu masca de nanosfere	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
7	Palade Petru, Radu Cristian	A00261/23.06.2025 Procedeu de preparare de nanocompozite pe bază de borohidrură de litiu înglobate în carbon nanoporos cu pori ordonați dopat cu azot cu efect catalitic asupra absorbției/desorbției de hidrogen sintetizate fără adaos de metal tranzițional	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
8	Baibarac Mihaela, Androne Andreea, Florica Cristina-Stefania	A00276/30.06.2025 Metodă de preparare a compozitelor bazate pe polianilină și nanocoarne de carbon	PNRR -III-C9-20123-18 CF11/27.06.2023 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
9	Iuga Alin Romulus, Kuncser Victor, Iacob Nicușor, Alexandru-Dinu Andrei	A00320/22.07.2025 Metodă de caracterizare complexă a proprietăților magnetice remanente în materiale feromagnetice	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
10	Ignat-Barsan Madalina Maria, Enache Teodor-Adrian, Oprea Bratu Daniela, Beregoi Mihaela	A00409/18.09.2025 Dispozitiv electrochimic portabil cu biosenzor integrat și membrană polimerică cu fibre electrofilate pentru monitorizarea în timp real a anionului superoxid în modele celulare de plagă cronică	12PED/2025 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
11	Enache Teodor-Adrian, Beregoi Mihaela, Evanghelidis Alexandru Ionuț, Nistor Sara	A00410/18.09.2025 Dispozitiv pentru stimularea difuziei pasive prin bariera hematocefalică bazat pe membrane din fibre electrofilate și modificate cu gelatină reticulată și procedeu de realizare a membranei	12PED/2025 siMAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
12	Teodorescu Cristian Mihail	A00438/02.10.2025 Dispozitiv emițător de radiație VUV prin bascularea stării feroelectrice a titanatului de bariu	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
13	Sergentu Any-Cristina, Bădică Petre, Batalu Nicolae-Dan	U00045/20.10.2025 Dispozitiv printabil 3D și programabil pentru testarea pastei de dinți în condiții de laborator	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
14	Madalina Cercel, Ion Smaranda, Andreea Nilă, Mirela Văduva, Teodora Burlănescu, Andreea Androne, Adelina Udrescu, Mihaela Baibarac	A00504/03.11.2025 Metoda de preparare a compozitelor ternare bazate pe MoS2, poli(orto-toluidina) și oxid de grafenă redus pentru aplicații în domeniul supercapacitorilor	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
15 EPO	Smaranda Ion, Burlanescu Teodora, Florica Stefania, Androne Andreea, Baibarac Mihaela, Vaduva Mirela	EP25465574.9/ 30.10.2025 Method for preparing polyvinyl chloride membranes modified with photocatalysts for use in the adsorbtion and photodegradation of the dye rhodamine 5G	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
16	Cotîrlan-Simionuc Costel	A000518/06.11.2025 Senzor monolitic pentru spectroscopia de absorbție cu cavitate rezonantă în undă evanescentă și rezolvare unghiulară	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023
17	Teodorescu Cristian Mihail	A000519/06.11.2025 Sistem de captură a carbonului folosind bascularea feroelectricității pulberii de titanat de bariu	MAVPA-PROSOCSPIN PN23 Nr.28 N din 12.01.2023

Evenimente in 2025

Tip eveniment	Nr. apariţii	Nume eveniment:
web-site	10	09Apr2025 Decision-making tools for chemistry: Life cycle assessment. 06May2025 Exploring the Structure of Matter by NMR 14May2025 10th International Workshop of Materials Physics 24Sep2025 Launch of UNESCO Chair on STEM Education (TRRISE) 17Nov2025 X-ray Scattering and Its Use in Exploring the Structure of Materials 18Nov2025 The Nanoworld Under the Light of the Synchrotron Nanoparticle assemblies: space- and time-resolved characterization GENERAL SEMINAR: Dr. Doru Constantin, Institut Charles Sadron, CNRS, Strasbourg, France I will discuss two recent applications of SAXS-based techniques to elucidating the structure of more or less crystalline structures… 09Jul2025 The Digital Chiroscope form AI-assisted spectral analysis to periodic structure simulations GENERAL SEMINAR: Dr. Valentin-Paul Nicu, Provitam Foundation, Cluj-Napoca, Romania About Dr. Valentin-Paul Nicu, Valentin-Paul Nicu is a senior researcher with over 20 years of experience in computational chemistry and chiroptical spectroscopy.… 06Jun2025 The Good, The Bad and The Ugly of AI Chatbots in Scientific Publishing: Insights from a Journal Editor GENERAL SEMINAR: Distinguished University Professor Hari Srikanth, Department of Physics, University of South Florida, Tampa FL, USA ABOUT PROF. Srikanth Hari Srikanth is a Distinguished University Professor at the University… 06Jun2025 Turning on the heat with spins and their transport across interfaces in heterostructures GENERAL SEMINAR: Distinguished University Professor Hari Srikanth, Department of Physics, University of South Florida, Tampa FL, USA ABOUT PROF. Srikanth Hari Srikanth is a Distinguished University Professor at the University… 06Jun2025 Amphiphilic Polycaprolactone Diblock Copolymers for Drug Delivery of Anticancer Drugs GENERAL SEMINAR: Prof. Mihaela C. Stefan, Department of Chemistry and Biochemistry at the University of Texas at Dallas ABOUT Prof. Stefan Mihaela C. Stefan received her B.S. in Chemical Engineering… 06May2025 From the selection process to the advancement of cutting-edge devices leveraging DNA nanotechnology GENERAL SEMINAR: Prof. Dr. habil. Cecilia Cristea, Department of Analytical Chemistry, Faculty of Pharmacy, Iuliu Hațieganu University of Medicine and Pharmacy, 4 Pasteur Street, 400349 Cluj-Napoca, Romania ABOUT PROF. CRISTEA… 06May2025 Sensing systems based on photoelectrochemistryexploiting semiconductor nanostructures on electrodes- principles, bottlenecks and advancements GENERAL SEMINAR: Prof. Dr. habil. Fred Lisdat, Biosystems Technology, Institute of Life Sciences and Biomedical Technologies, Technical University of Applied Sciences Wildau, 15745 Wildau, Germany ABOUT PROF. LISDAT Fred Lisdat… 21Feb2025 Artificial Intelligence enabling disruptive Innovative Advanced Materials design & engineering GENERAL SEMINAR: Prof. Stephan Roche, ICREA Institucio Catalana de Recerca i Estudis Avancats, Barcelona, Spain ICREA Prof. Stephan Roche is working at the Catalan Institute of Nanosciences and Nanotechnology (ICN2)… Laser Valley Innovation Bootcamp 2025 https://magurelesciencepark.ro/bootcamp-laser-valley-innovation-2025/ INCDFM aduce știința aproape de comunitate la Noaptea Cercetatorilor 2025 https://infim.ro/news/noaptea-cercetatorilor-reconnect-2025/ 26-27 septembrie 2025 — Standul nostru a pus în evidență aplicațiile moderne ale materialelor avansate în domenii critice precum securitatea și tehnologiile viitorului. Nanture Index (6 place in Romania) https://www.nature.com/nature-index/institution-outputs/generate/all/countries-Romania/all Wikimapia https://wikimapia.org/19116027/INCDFM-National-RD-Institute-of-Materials-Physics-NIMP Lista Firme https://www.listafirme.ro/institutul-national-de-cercetare-dezvoltare-pentru-fizica-materialelor-incdfm-bucuresti-9068280/ Magurele Science Park https://magurelesciencepark.ro/incd-pentru-fizica-materialelor-incdfm-bucuresti/
Emisiuni TV	1	Emisiune TVR2 “Educația la putere”, titlu: Inteligenţa artificială – aliat sau ameninţare? Invitat Cristian M. Teodorescu (https://www.youtube.com/watch?v=FMK06UtO-CE)
Emisiuni radio	0
Presă scrisă/electronică	4	Market Watch
Reviste	3	Market Watch; Nature (https://www.nature.com/articles/d41586-025-03884-x)
Interviu Gandul	1	www.gandul.ro/actualitate/cum-pot-revolutiona-kit-urile-experimentale-procesul-educational-pentru-stem-problema-esentiala-este-cum-se-preda-si-cum-se-invata-20366100
Bloguri	2	www.vice.com; www.open.spotify.com
Podcast	0
Altele (se vor preciza)	6	Canal Youtube https://www.youtube.com/@nationalinstituteofmateria526/videos Pagina Faebook https://www.facebook.com/NationalInstituteOfMaterialsPhysics Linkedin https://www.linkedin.com/company/incdfm/posts/?feedView=all Instagram https://www.instagram.com/incdfm/

Rezultatele Programului-nucleu care au fundamentat alte proiecte/propuneri de proieecte de cercetare:

Propuneri de proiecte in 2025

Titlul programului	Tip proiect	Titlul proiect	Situatia prezenta (in evaluare; evaluat dar nefinantat - cu rezultat/punctaj la evaluare)
Lab 10
Programul Orizont Europa al Comisiei Europene	HORIZON-CL3-2025-01-DRS-02. Improving disaster risk management and governance to ensure self-sufficiency and sustainability of operations in support of enhanced resilience	RESILIA-RAIL-Resilience & Safety Innovation League for Integrated Action - A rail-native safety envelope for CBRN-E resilience	Depus 12 Noiembrie 2025
Programul Orizont Europa al Comisiei Europene	HORIZON-CL6-2025-01-ZEROPOLLUTION-03	AGAINST-PFAS. Adaptive Green AI-Enabled Next-generation Sensing and Treatment of PFAS ‒ Empowering communities to address toxic contaminants	Depus 17 Septembrie 2025
Fonduri structurale	STEP. Program Sănătate, prioritatea P9.Contribuția la Platforma STEP: biotehnologii și tehnologii digitale, inclusiv servicii asociate în sectorul sănătății	Platforma portabilă pentru analiza in vitro a unui număr mare de antigeni, anticorpi și secvențe de material genetic	Depus 29 August 2025
European Defence Fund.	EDF-2025-RA-MCBRN-ATE	AWEAR-EVAC. Autonomous Wearable and Robotic System for AI-based Triage and Evacuation in NBC battlefield	Depus 16 Octombrie 2025
Programul Orizont Europa al Comisiei Europene	HORIZON-CL4-2025-03-MATERIALS-47	ReTexSens. Reusable and Sustainable Smart Textiles for Flexible, Stretchable Electronics and Biosensing Applications	Depus 29 Septembrie 2025
Programul Orizont Europa al Comisiei Europene	COST Action	OC-2025-1-29102 Aligning Governance, Analytics, Innovation, and Networking for Sensing and Treatment of PFAS	Depus 21 Octombrie 2025
Programul Orizont Europa al Comisiei Europene	MARIE SKŁODOWSKA-CURIE ACTIONS .Doctoral Network. HORIZON-MSCA-2025-DN-01-01	NEXT2. Next-generation human-relevant neural models emulating micro/nanoscale complexity via organoid and biomaterial synergy	Depus 25 Noiembrie 2025
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centrul de excelenta in cercetare pentru promovarea neutralitatii si rezilientei climatice prin agricultura	Centrul de excelenta in cercetare pentru promovarea neutralitatii si rezilientei climatice prin agricultura	85.5 puncte, Selectat pentru finantare (partener) PN-IV-P6-6.1-CoEx-2024-0120
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Industrie curată și siguranța aprovizionării cu materii prime	Centrul de excelenta pentru materiale responsive avansate	89.5 puncte, Selectat pentru finantare (coordinator) PN-IV-P6-6.1-CoEx-2024-0187
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Accesibilitatea, alimentarea cu și utilizarea eficientă a energiei	Centrul de Cercetare de Excelență pentru o Eficiență Înaltă în Utilizarea Energiei	90 puncte, Selectat pentru finantare (partener) PN-IV-P6-6.1-CoEx-2024-0154
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	Alianța pentru cercetare avansată și restaurare, tehnici și formare	Neselectat pentru finantare (partener)
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	Centru de Excelenta pentru Medicina Regenerativa si Personalizata	Neselectat pentru finantare (partener)

Lab 20
Programul Orizont Europa al Comisiei Europene	CETP	Towards high-efficiency indoor photovoltaics with wide bandgap kesterites – THINK -CETP-2025-00298	În evaluare
Programul Orizont Europa al Comisiei Europene	LEAP-SE	Développement de systèmes photoélectrochimiques à faible coût pour une production durable d'hydrogène vert : de la conception à l'intégration – P2SH2Pro	Pre-propunere evaluată, dar neselectată pentru faza a II-a
Program Science for Peace	NATO	Innovative materials for development of electrolysis and advanced supercapacitor systems, Multi-Year Projects (MYP) G8777	Evaluat, dar nefinanțat (“proposal was not among those selected for support “)
Programul Orizont Europa al Comisiei Europene	HORIZON-EIC-2025-PATHFINDEROPEN	Anti-ferroelectric-based unified information and energy storage at the Edge STOREDGE	Nefinanțat Punctaj: 4.55/5
Programul Orizont Europa al Comisiei Europene	HORIZON Call: ERC-2026-STG	Ferroelectricity-by-design: Inducing symmetry breaking in 2D and ultrathin oxide materials via electrostatic coupling	În evaluare
Programul Orizont Europa al Comisiei Europene	HORIZON-MSCA-2025-PF	Regenerative polypropylene-based meshes via electrospinning and bioactive sputtered coatings – RegenMesh-PP	În evaluare
Programul Orizont Europa al Comisiei Europene	Teaming	Centre of Excellence on Advanced Materials for Energy Efficient ELectronic Systems (CAMELS)	7,5 puncte, sub threshold.
Programul Orizont Europa al Comisiei Europene	HORIZON-CL4-2025-03-MATERIALS-47	Reusable and Sustainable Smart Textiles for Flexible, Stretchable Electronics and Biosensing Applications	In evaluare
PN IV Programului 5.9/Subprogramul 5.9.1	ELI-RO	Innovative coating materials for optical components in extreme environments ELI-RO/RDI/DEZ/DFG/2025_018 – INCOMAT	Evaluat, dar nefinanțat Punctaj: 94/100
PNIV – Program 5.8 - Programul Cooperare europeană și internațională PN-IV-P8-8.3-PM-RO-FR-2025	5.8.3 - Subprogramul Bilateral/multilateral	Sustainable Indoor Photovoltaics Based on Emerging Quasi-1D Chalcogenides - PN-IV-P8-8.3-PM-RO-FR-2025-0251	În evaluare
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Autonomie strategică deschisă în tehnologiile digitale și în cele emergente și centrarea pe om a acestora	Centru de excelenta in domeniul materialelor avansate pentru neuromorfic, digital, quantum si alte tehnologii emergente	88 puncte, neselectat pentru finantare (coordonator)
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Autonomie strategică deschisă în dezvoltarea, implementarea și utilizarea infrastructurilor spațiale globale, a serviciilor, aplicațiilor și datelor	Centrul de Excelenta pentru Explorare Spațială, Tehnologii si Aplicații	83.5 puncte, neselectat pentru finantare (partener)
Lab 30
PNRR Componenta C9 –PNRR/2024/C9/MCID/I7-P1 – Componenta Cofinantare	Investiția 7. „Consolidarea excelenței și susținerea participării României la parteneriatele și misiunile din cadrul programului Orizont Europa”	“Investitie de Inovare Sustenabilă pentru Producerea de Magneți Permanenți”,	Neeligibil
PNRR Componenta C9 –PNRR/2024/C9/MCID/I7-P2 – Componenta Proiecte Complementare,	Investiția 7. „Consolidarea excelenței și susținerea participării României la parteneriatele și misiunile din cadrul programului Orizont Europa”	“Contributii la instalatia pilot pan-Europeana PERMANET de fabricare si procesare magneti permanenti”,	In evaluare
PNIV – Program 5.8 - Programul Cooperare europeană și internațională PN-IV-P8-8.3-PM-RO-FR-2025	5.8.3 - Subprogramul Bilateral/multilateral	“Novel strategies for low cost 3D printed permanent magnets technologies for restoring magnet production value chain in Europe”	In evaluare
PN IV – Subprogram 5.8.3	Proiecte complexe bilaterale România - Statele Unite ale Americii	Designing and Controlling 2D Magnetic Semiconductors Toward Creating Low-Power Probabilistic Bits (ID: 2526038)	Depunerea scrisorii de intentie (EOI) 08/11/2024 Depunerea proiectului 25/02/2025 Proiect neacceptat pentru finantare, Rezultat 08/08/2025 Redepunere EOI 24/10/2025
PNIV – Program 5.8 - Programul Cooperare europeană și internațională 5.8.3 – Subprogramul Bilateral/multilateral Proiecte de mobilitate	Proiecte de mobilitate România – Franța, Programul de Acțiuni Integrate (PAI) Brâncuși - Hubert Curien (PHC) PN-IV-P8-8.3-PM-RO-FR-2025-0191	Dezvoltarea de nanostructuri și compozite Heusler multifuncționale pentru tehnologii avansate de conversie a energiei, magnetice si electronice	in curs de evaluare
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Diminuarea pierderilor cauzate de calamități naturale, accidentale și de cele provocate de om	Reziliență Proactivă și Pregătire pentru Situații de Urgență pentru Răspuns Adaptiv și Eficient	87 puncte, Selectat pentru finantare (partener) PN-IV-P6-6.1-CoEx-2024-0102
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Tranziția sectorului energie către neutralitate și reziliență climatică	Tehnologii Nucleare Emergente pentru Energie	81, neselectat pentru finantare (partener)
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	ThriveSphere: Promovarea excelenței pentru siguranța în spațiul de muncă, bunăstarea și traiul holistic	Neselectat pentru finantare (partener)
Lab 40
Programul Orizont Europa al Comisiei Europene	HORIZON-RIA	PIEZOCAT – Synergistic catalysts for sustainable fuel production via a Sabatier process / HORIZON-CL5-2024-D3-02 /	Evaluat, dar nefinanțat – a obținut 11 p. / threshold 10 p.
Programul Orizont Europa al Comisiei Europene LEAP-SE	2025 Call for AU-EU collaborative research and Innovation projects on sustainable Energy	P2SH2Pro: Development of low-cost photoelectrochemical systems for sustainable green hydrogen production: from design to integration.	Evaluat, dar nefinantat in faza de pre-propunere (faza I de evaluare). Motivul principal pentru care proiectul nu a trecut in faza finala a evaluarii a fost legat de lipsa credibilitatii partenerului industrial, compania turca care facea parte din consortiul proiectului.
Programul Orizont Europa al Comisiei Europene Water4All	2025 Joint Transnational Call: Water and Health	MX-ULTRAPURE: MXene-Engineered Platform for Electrochemical Removal of Ultrashort-Chain PFAS.	Proiect se aflaă în faza I de evaluare sub forma de pre-propunere. Selecția finală va fi anunțată până la finalul lunii februarie 2026.
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx) Eeconomie circulară.	Paradigme chimio-catalitice în valorificarea deșeurilor multifazice	Punctaj 85,5 p.; selectat pentru finanțare
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	Sistem de transport fara emisii de carbon.	Punctaj 72 p., neselectat pentru finanțare (partener)
Lab 50
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	Dezvoltare Durabilă prin formarea de Comunități Inteligente în jurul Ecosistemelor Deschise de Date	Neselectat pentru finanțare (partener)
Lab 60
Programul Orizont Europa al Comisiei Europene	Water4all 2025, LIGHTWATCH	Leveraging Integrated Global Health Technologies for Water Analysis Through AI and Chip-based High-sensitivity optofluidic sensing	Water4All 2025 JTC Pre-prounere de proiect, In evaluare etapa 1
Programul Orizont Europa al Comisiei Europene	Water4All 2025 Joint Transnational Call	Eco-friendly metal oxide-functionalized 3D polyurethane foams for photo(electro)catalytic water treatment, Acronim: 3D AQUAVAZNO,	Pre-propunere de proiect Water4All2025-prima etapa de evaluare
Programul Orizont Europa al Comisiei Europene	Pathfinder Open HORIZON-EIC-2025-PATHFINDEROPEN	SLIDETRONIC: 3D ferroelectric memory cube for self-powered edge intelligence	Evaluat dar nefinantat cu punctajul 4.65 din 5
Programul Orizont Europa al Comisiei Europene	Water4All 2025 Joint Transnational Call	GEO-intelligent solutions with portable water units for equal-access to water in crisis situations	Pre-propunere de proiect Water4All2025-prima etapa de evaluare
Programul Orizont Europa al Comisiei Europene	LEAP-SE2025	Recycling of the spent zinc-carbon batteries in new energy storage devices	Propunere de proiect LEAP-SE in a doua etapa de evaluare
Programul Orizont Europa al Comisiei Europene	Horizon-MSCA-2025-SE-01/Horizon-TMA-MSCA-SE	Advanced development of carbon-based nanomaterials for enhanced energy storage and sensor technologies	Propunere de proiect in etapa 1 de evaluare
Science for Peace and Security	Multi-Year Projects	Development of water desalination membrane for gloval environmental security	Propunere de proiect in evaluare
PN IV. Programul Provocări, Centre de excelență (CoEx)	Centre de excelență (CoEx)	Tehnologii inovatoare pentru apa curata	Neselectat pentru finantare (partener)

Lab 70
Programul Orizont Europa al Comisiei Europene	HORIZON-INFRA-2025-01-EOSC-05HORIZON Research and Innovation Actions	An Integrated GenAI-Enabled Development Environment for Conducting EOSC-based Research (IDE4EOSC-R)	In evaluare
European Defense Fund	EDF-LS	MANTIS	In evaluare
Lab 80
Programul Orizont Europa al Comisiei Europene	International HORIZON-EIC-2025-PATHFINDEROPEN	From Waste to Value: Upcycling Used Bottles into Green Plasticizers for Industrial Integration (VIBE-PET), Proposal number: 101258692, May 2025; Florentina Neatu	evaluat dar nefinantat-cu rezultat 3.95 (din 5)
Programul Orizont Europa al Comisiei Europene	International COST ACTION	MXene-Based Catalysts for Sustainability Chemical Challenges-MXeneCatSus; October 2025, Mihaela Trandafir; Proposal Reference OC-2025-1-28887.	In evaluare
Programul Orizont Europa al Comisiei Europene	International HORIZON-MSCA-2025-DN-01, Draft ID: SEP-211254967	Efficient strategies for overcoming bacterial toxins resistance (EFIOTOX)	In evaluare
Programul Orizont Europa al Comisiei Europene	International HORIZON-MSCA-2025-DN-01 - Draft ID: SEP-211259154	2D materials based on MXenes and related materials for electrochemical and thermochemical energy applications (MXenergy)	In evaluare
Programul 5.8-Cooperare Europeana si Internationala	Bilateral PN-IV-P8-8.3-PM-RO-FR-2025	A simple synthesis approach and comprehensive structural characterization of 1D TiO2 materials (1DTiO2SAXS) PN-IV-P8-8.3-PM-RO-FR-2025-0026	In evaluare
L’Oreal For Women in Science, 2025	National	Supported 3D layered materials as efficient catalysts for syngas production - diminishing greenhouse gas emissions (NOWarming), Mihaela Trandafir	Evaluat, dar nefinanțat.
L’Oreal For Women in Science, 2025	National	Smart materials based on hydrazone covalent organic frameworks (SmartCOF), Anca Mirea	Evaluat, dar nefinanțat.
CIFRA
Programul Orizont Europa al Comisiei Europene	International, ERC-Advanced Grant	Programming Strong Light-Matter Interactions in Engineered Viromimetic Particle Superlattices(SLIGHT-ENVIS)	In evaluare (evaluat si acceptat in Step 2)

55 propuneri de proiecte elaborate in 2025, dintre care 14 la Centre de Excelenta (2 coordonator si 12 partener) si 27 la diferite programme europene. Dintre cele 14 propuneri la centre de excelenta, 4 au fost selectate pentru finantare (1 coordonator si 3 partener), dar contractele de finantare nu au fost semnate inca. Inca 3 proiecte au obtinut peste 80 puncte (1 coordonator si 2 partener).

Proiecte intrate la finantare in 2025

Titlul programului	Tip proiect	Titlul proiect	Numar contract/grant
Lab 10
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PED	Dezvoltarea detectorilor pe baza de absorbanți de volum pentru măsurarea energiei laserilor cu CO₂	98/2025
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PED	Hidrogeluri încărcate cu molecule antioxidante din extracte de plante pentru îmbunătățirea acțiunii loțiunilor de protecție solară	127/2025
PN IV. Parteneriate și misiuni europene	M-ERA. NET	HERAQUA. Monitorizare electrochimică inovatoare a hormonilor feminini utilizând electrozi bazati pe nanostructuri de carbon	135 din 01/09/2025. (ERANET-HerAqua)
European Space Agency & ROSA	SciSpacE. Activity 2: Physical Science	Smart (gas and bio) Detector Wireless Network (for ISS and beyond) – Flight Demonstration Model
Lab 20
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PED	Antenă adaptabilă pentru microunde pe bază de materiale cu schimbare de fază	81PED din 05.05.2025
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PED	Compozite compensate termic obținute prin sinterizare asistata de câmp electric pentru sisteme de comunicații și supraveghere fără fir	82PED din 05.05.2025
PNIV: Programul 5.8–Cooperare europeană și internațională; Subprogramul Bilateral/Multilateral: Proiecte complexe bilaterale cu Republica Moldova	RO-MD	Ingineria aliajelor de calcogenuri de antimoniu pentru îmbunătățirea durabilității și eficienței în celulele fotovoltaice cu arhitecturi adaptate situațional	28PCBROMD din 01.09.2025
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PTE	Dezvoltarea unei noi clase de instrumente de masura a energiei si puterii laser	27PTE/2025
Lab 30
Programul Orizont Europa al Comisiei Europene	Interregional Innovation Investment – I3 Proiect European I3-2023-INV2a	SICAPERMA: “Sustainable Innovation Investment Catapult for Permanent Magnets”	101160837
Programul Orizont Europa al Comisiei Europene	Proiect European HORIZON-CL4-2024-RESILIENCE-01	PERMANET: “Permanent Magnet Network for the European Transition”	101178444
PN IV – Program 5.1 – Idei	PCE	Materiale 2D pentru electronice sustenabile	PN-IV-P1-PCE-2023-1089 cu numărul de contract 56PCE din 03/01/2025
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	PED	Sistem de livrare în timp a componentelor bioactive utilizate în restaurarea homeostazei enzimatice a rănilor cutanate	PN-IV-P7-7.1-PED-2024-2569 cu numarul de contract 63PED/2025 din 01/08/2025
PN IV – Program 5.1 – Idei	PCE	Compozite complexe cu structuri organizate	PN-IV-P1-PCE-2023-1692 cu numarul de contract 98PCE/2025 din 01/08/2025
Lab 60
PNIV: Programul 5.7 - Parteneriate pentru Inovare, Subprogramul Parteneriate pentru competitivitate	Proiect Experimental Demonstrativ (PED)	Sistem automat de depunere chimică din fază de vapori pentru producția de nanomateriale bidimensionale	Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate
PN IV – Program 5.1 – Idei	Proiecte de Cercetare Exploratorie (PCE)	Descoperirea accelerată prin algoritmi de învățare a calcogenicilor pentru memristori	Program 5.1 - Idei,
PN IV Program 5.8 - Cooperare Europeană și Internațională - Subprogramul 5.8.3 Bilateral/Multilateral	Proiecte complexe bilaterale cu Republica Moldova	Nanostructuri pe bază de dimorfit artificial cu controlul raportului fazelor α / β pentru aplicații optoelectronice	Program 5.8 - Cooperare Europeană și Internațională - Subprogramul 5.8.3 Bilateral/Multilateral
PN IV Program 5.2 - Resurse Umane	Tinere echipe	Ingineria dielectricilor de poartă pentru tranzistori organici emițători de lumină de înaltă performanță	Program 5.2 - Resurse Umane
PN IV Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate	Proiect Experimental Demonstrativ (PED)	Structuri flexibile de celule fotovoltaice hibride	Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate
PN IV Program 5.2 - Resurse Umane	Tinere echipe	Celule fotovoltaice cu electro conductiv transparent multistrat dezvoltat pe substrate flexibile s rigide	Program 5.2 - Resurse Umane
PN IV Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate	Proiect Experimental Demonstrativ (PED)	Aplicațiile materialelor 2D modificate cu nanoparticule metalice in domeniul senzorilor	Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate
PN IV Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate	Proiect Experimental Demonstrativ (PED)	Materiale compozite bazate pe grafena pentru aplicatii in domeniul supercapacitorilor	Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate
Lab 70
PN IV Programul 5.1 - Idei	Proiecte de Cercetare Exploratorie	Memorie nevolatila cu poarta flotanta multipla din nanocristale de GeSn controlata cu camp electric si lumina si cu consum electric scazut (LighTinGMemLowP)	101PCE/15.07.2025
Lab 80
Proiecte Mobilități Diaspora	National	Proiect de mobilitate pentru cercetǎtori cu experienţǎ din diaspora, PN-IV-P2.2-MCD-2025-0480, Mihaela Trandafir	MCD 10/29.09.2025
PN IV Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate	National Proiect Experimental Demonstrativ (PED)	Ridicarea la scala a sintezei materialelor pe baza de oxid de ceriu dopat si utilizarea lor drept catalizatori in reactia de reducere a CO2, PN-IV-P7-7.1-PED-2024-2346, Mihaela Florea	PED 87/2025
PN IV Program 5.7 - Parteneriat pentru Inovare - Subprogramul 5.7.1- Parteneriate pentru competitivitate	National Proiect de transfer la operatorul economic (PTE)	Dispozitiv pentru decontaminarea materialelor, suprafețelor și echipamentelor sensibile, PN-IV-P7-7.1-PTE-2024-0413, Mihaela Florea	PTE 46/2025
CET-P	International	Next generation Components for Polymer Electrolyte Membrane Fuel Cells, Mihaela Florea	142/2025
CIFRA
UNESCO Co-Creative Workshop	Revitalizing STEM Education to Equip Next Generations with STEM Competency	Experiments Project Integrating and Supporting STEM in the Educational Curriculum through UNESCO Microscience	Contract 350718, UNESCO_Venice - CIFRA

Rata de succes 26/55=47.2 % poate fi inselatoare, pentru ca multe din proiectele finantate au fost propuse in 2024.

PROJECTS/ PROIECTE NUCLEU