Effect of interfaces on the charge transport in ferroelectric/multiferroic heterostructures


Project Director: Dr. Lucian Pintilie
Project ID:
PN-II-ID-PCCE-2011-2-0006, contract 3/2012
Project Director:
Dr. Lucian Pintilie
Project Type:
National
Project Program:
Ideas PCCE
Funded by:
Romanian National Authority for Scientific Research, UEFISCDI
Contractor:

National Institute of Materials Physics

Project Status:
In progress
Start Date:
Friday, 1 June, 2012
End Date:
Sunday, 1 November, 2015
Project Abstract:

The main objective of the project is to perform a detailed study of interfaces and their effect on the charge transport properties in a number of well defined artificial multiferroic structures. Charge transport is beneficial in some cases, for example in tunnel junctions, but can be detrimental in other cases, as for example devices based on magnetoelectric effect or in capacitor like structures. In all cases, at least the interfaces with the metallic electrodes are involved in charge transport, but other interfaces can be also involved if multilayer structures are used. The study will be performed on thin films and/or nanostructures, therefore a significant influence of interfaces on the electronic and ionic charge transport is expected. The start will be from simple capacitor-like structures, to elucidate the problem of electrode interfaces in the case of various ferroic oxides. Further on charge transport in relation with interfaces will be studied in mode complex, multilayer structures with possible applications in tunel junctions, diodes or field effect devices.

The project involves 6 research teams from 2 host institutions, one of which is the National Institute of Materials Physics from Bucharest-Magurele, and the other one is the Alexandru Ioan Cuza University (UAIC) from Iassy. The composition of the teams is a mixes experienced researchers with excellent track records regarding preparation, characterization and modelling of advanced multifunctional materials including oxides, and young scientists at the beginning of their carriers. Some 12 PhD thesis are expected to start during the project. The project is expected to have a major impact not only at the basic science level, refelcetd by publications in high ranking journals, but also at the level of applied research, as for example manipulation of charge transport through designing specific interfaces or developement of new oxide architectures for ferroelectric field effect controlled of spin currents.

Project Objectives:

The main objective of the project is to perform a detailed study of the various types of interfaces and determine their effect on the charge transport properties in a number of well defined artificial multiferroic structures. Charge transport is beneficial in some cases, for example in tunnel junctions, but can be detrimental in other cases, as for example devices based on magnetoelectric effect or in capacitor like structures. In all cases, at least the interfaces with the metallic electrodes are involved in charge transport, but other interfaces can be also active if multilayer structures are used. The study will be performed on thin films and/or nanostructures, therefore a significant influence of interfaces on the electronic and ionic charge transport is expected. For the start, simple capacitor-like structures will be studied to elucidate the problem of electrode interfaces in the case of various ferroic oxides. Further on charge transport in relation with interfaces will be studied in to more complex, multilayer structures with possible applications in tunnel junctions, diodes or field effect devices.

Specifically, the following objectives are envisaged in the project:

  • A comprehensive theoretical and experimental study will be performed in order to understand the formation of the metal-ferroic interface in the case of ferroelectrics, single phase multiferroic and low conductivity ferrites. The envisaged ferroelectrics are Ti-rich PZT and BaTiO3, the multiferroic is BiFeO3, and the ferrites are those with spinel structure such as CoFe2O4. The following metals will be used as electrodes: Cu, Au (diamagnetic, with complete d-shell); Al (diamagnetic, no d-shell), magnetic metals. Conductive oxides will be also considered as electrodes, as for example SrRuO3 and half-metal manganites. Such a complex study was not performed until now and is expected to bring extremely valuable information regarding the properties of the metal-ferroic interface, about how these properties can be controlled during the metallization procedure, and how we can design the electrode interfaces in order to obtain specific macroscopic characteristics of an oxide-based structure. In fact, the understanding of the electrode interface in cases of surfaces carrying bound charges, as it is the case of ferroelectric, or in case of various types of magnetic orders (antiferro, ferri, ferromagnetic, spiral), which may also affect the potential barrier, is a prerequisite for modeling electronic properties and charge transport in artificial multiferroics. Knowing what it is expected from the electrode interface, it is then possible to discern and optimize the true coupling between oxides with different ferroic properties.
  • A comprehensive study of the transport phenomena in multilayer structures based on the materials mentioned above. That will include bi-layers, as well as structures for tunnel devices. Focus will be to optimize TMR and TER in the same structure at room temperature, if possible. The efforts will be made, after separating the influence of electrode interfaces on the charge injection, to see to what extent the interface between oxides with different ferroic properties affects the charge transport. It will be of high importance to separate the strain and charge effects, and to see how one can manipulate the interfaces in order to optimize TMR and TER. Magnetoelectric coupling will be also studied via newly developed methodologies and efforts will be made to combine materials with high magnetostriction coefficient with materials having high piezoelectric coefficient (preferably lead free), and to optimize the balance between leakage and magnetoelectric voltage.
  • Design and development of novel architectures of artificial multiferroics for ferroelectric field effect control of spin transport in FET like structures. Among the envisaged combinations is, for example, one between PZT or BiFeO3 and ZnO doped with magnetic ions. The purpose is to go from standard multilayer structures towards nanowire-based architectures, using both back-gate and top-gate configuration, as well as cylindrical gate configurations.
Teams:

Up-graded list of personnel (November 2015)

Nr. crt.

Partener din consortiu

Persoana

Calitatea

1

Coordinator (CO) - National Institute of Materials Physics

Pintilie Lucian

Project Director

2

Coordinator (CO) - National Institute of Materials Physics

Enculescu Ionut

Senior researcher rank 1

3

Coordinator (CO) - National Institute of Materials Physics

Pintilie Ioana

Senior researcher rank 1

4

Coordinator (CO) - National Institute of Materials Physics

Chirila Cristina

Post-doc

Senior researcher rank 3

5

Coordinator (CO) - National Institute of Materials Physics

Trupina Lucian

Post-doc

Senior researcher rank 3

6

Coordinator (CO) - National Institute of Materials Physics

Florica Camelia

Post-doc

7

Coordinator (CO) - National Institute of Materials Physics

Boni Georgia Andra

Post-doc

8

Coordinator (CO) - National Institute of Materials Physics

Botea Mihaela

Post-doc

9

Coordinator (CO) - National Institute of Materials Physics

Mihalcea Manda

Tehnician

10

Partner (P1) - National Institute of Materials Physics

Stefan Mariana

Senior researcher rank 2

11

Partner (P1) - National Institute of Materials Physics

Ghica Cornel

Senior researcher rank 1

12

Partner (P1) - National Institute of Materials Physics

Ghica Daniela

Senior researcher rank 3

13

Partner (P1) - National Institute of Materials Physics

Pasuk Iuliana

Senior researcher rank 3

14

Partner (P1) - National Institute of Materials Physics

Damian Raluca

Post-doc

15

Partner (P2) - National Institute of Materials Physics

Teodorescu Cristian Mihail

Senior researcher rank 1

16

Partner (P2) - National Institute of Materials Physics

Macovei Dan

Senior researcher rank 1

17

Partner (P2) - National Institute of Materials Physics

Husanu Marius

Post-doc

Senior researcher rank 3

18

Partner (P2) - National Institute of Materials Physics

Stoflea Laura

PhD student

19

Partner (P1) - National Institute of Materials Physics

Costas Andreea

Post-doc

20

Partner (P3) - National Institute of Materials Physics

Badica Petre

Senior researcher rank 1

21

Partner (P3) - National Institute of Materials Physics

Kuncser Victor

Senior researcher rank 1

22

Partner (P3) - National Institute of Materials Physics

Galatanu Andrei

Senior researcher rank 1

23

Partner (P3) - National Institute of Materials Physics

Schinteie Gabriel

Senior researcher rank 1

24

Partner (P3) - National Institute of Materials Physics

Ivan Ion

Post-doc

25

Partner (P3) - National Institute of Materials Physics

Burdusel Mihai

PhD student

26

Partner (P3) - National Institute of Materials Physics

Ghita Irina

PhD student

27

Partner (P4) - National Institute of Materials Physics

Baibarac Mihaela

Senior researcher rank 1

28

Partner (P4) - National Institute of Materials Physics

Mihut Lucian

Senior researcher rank 3

29

Partner (P4) - National Institute of Materials Physics

Sima Marian

Senior researcher rank 2

30

Partner (P4) - National Institute of Materials Physics

Lutea Ion

Tehnician

31

Partner (P3) - National Institute of Materials Physics

Sandu Simona

Post-doc

32

Coordinator (CO) - National Institute of Materials Physics

Hrib Luminita

Post-doc

Senior researcher rank 3

33

Partner (P5) - Alexandru Ioan Cuza University

Mitoseriu Liliana

Professor

34

Partner (P5) - Alexandru Ioan Cuza University

Ciomaga Cristina Elena

Senior researcher

35

Partner (P5) - Alexandru Ioan Cuza University

Curecheriu Lavinia

Senior researcher

36

Partner (P5) - Alexandru Ioan Cuza University

Gheorghiu Felicia

Post-doc

37

Partner (P5) - Alexandru Ioan Cuza University

Horghidan NadejdaSenior researcher

38

Partner (P5) - Alexandru Ioan Cuza University

Padurariu Leontin

PhD student

39

Partner (P1) - National Institute of Materials Physics

Ion Anton

Tehnician

40

Partner (P2) - National Institute of Materials Physics

Apostol Nicoleta

Post-doc

41

Partner (P2) - National Institute of Materials Physics

Tache CristianPhD student

42

Partner (P3) - National Institute of Materials Physics

Leca AurelEngineer

43

Coordinator (CO) - National Institute of Materials Physics

Stancu Viorica

Senior Researcher rank 3

44

Coordinator (CO) - National Institute of Materials Physics

Filip Dragos Lucian

Senior Researcher rank 3

45

Partner (P5) - Alexandru Ioan Cuza University

Ciobanu Gabriela

Senior Researcher

Scientific report year 2012 (in Romanian)-Download

Scientific report for year 2013 (in Romanian)-download

Scientific report for year 2014 (in Romanian)-download

Scientific report for year 2015 (in Romanian)-download

Sintetic report 2016 (in Romanian)-download

Important results:

The study of electrode-ferroelectric interface was performed by using different characterization tehniques, such as: X-ray photoelectron spectroscopy (XPS), high resolution transmission electron microscopy (HR-TEM, piezoelectric force microscopy (PFM), macroscopic electrical measurements (I-V, C-V, hysteresis, etc.).

Metals such as Au, Cu and Pt were tested as electrodes on PZT (lead zirconate-titanate) and BTO (barium titanate) epitaxial filmsgrown by pulsed laser deposition (PLD). The bottom electrode was in all cases SRO (strontium ruthenate). The three metals were deposited by molecular beam epitaxy (MBE) on the surface of the ferroelectric film. The deposition, for each metal, was sequential starting with 2 atomic layers and ending to a thickness of 10 nm. After each deposited metal layer XPS measurements were performed in order to investigate the band bending at the interface. The results with Au were already published, while the results on Cu and Pt are under evaluation.

Example of the binding energy shifting for Au (published in Applied Surface Science).

HR-TEM images of the deposited layer (published in Applied Surface Science). The gold layer seems to be not continous and not very adherent. That can explain the larger potential barrier determined from I-V measurements at different temperatures, compared to Cu or Pt.

Several papers were published in journals with high impact factor, supporting the hypothesis that the properties of the electrode interfaces in ferroelectric capacitors are strongly influenced by the polarization charges. Especially in the case of the epitaxial films, in which case the polarization is actually controlling the interface properties (see for example the article "Polarization-Control of the Potential Barrier at the Electrode Interfaces in Epitaxial Ferroelectric Thin Films";By: Pintilie, Ioana; Teodorescu, Cristian Mihail; Ghica, Corneliu; et al.ACS APPLIED MATERIALS & INTERFACES  Volume: 6   Issue: 4   Pages: 2936-2946   Published: FEB 26 2014"). This fact is very well reflected by the following table:

The voltage dependence of capacitance and the frequency dependence of the complex impedance were measured for PZT and BTO films, grown on single crystal STO substrates with different orientations, and having different metals as top electrodes. The C-V measurements suggest the presence of Schottky type contacts at the electrode interfaces. These were used to extract information about the dielectric constant in the depleted region and about the concentration of the free carriers. The frequency dependence of the imaginary part of the complex impedance suggests a dominant capacitive reactance. Its frequency dependence was simulated with an equivalent circuit consisting of four elements: a contact resistance; a capacitance associated to the Schottky contacts; a parallel R-C connection describing the ferroelectric volume of the film. However, the values extracted for the elements of the equivalent circuit by fitting the equation (2”) with the experimental data of the imaginary part of the complex impedance do not fit very well the real part of the complex impedance especially at low frequencies. This may be due to the active traps in the low frequency range. Equations (2’) and (2”) show that for high frequencies the equivalent circuit can be reduced to a simple serial R-C circuit, as already reported for other devices.

The frequency dependence of the imaginary part of the complex impedance of a ferroelectric film deposited on STO substrates with different orientation: (a) BTO grown on STO(001); (b) PZT grown on STO(001); (c) BTO grown on STO(111); (d) PZT grown on STO(111).The inset shows the frequency dependence of the real part of the complex impedance for BTO on STO(001) (Published in Journal of Applied Physics 116, 044108 (2014))

Remarkably is that the behavior is about the same for different ferroelectric materials, grown on substrates with different orientations and having different top electrodes. The exception is Al, in which case the results strongly support the formation of the thin layer of aluminum oxide affecting the properties of the interface and the equivalent dielectric constant of the ferroelectric capacitor. There are also evidences that a thin Cu oxide layer may form in the case of top Cu electrode. However, except Al, the values extracted for the capacitance CS of the Schottky contact and for the apparent built-in potential Vbi’ does not differ significantly considering that the work function difference between Pt and Cu is about 1 eV. These results support the assumption that the equivalent circuit can be used for any epitaxial ferroelectric film and that the polarization control of electrode interfaces is a general phenomenon in the case of capacitor based on epitaxial ferroelectrics. The effect of spontaneous polarization on the properties of Schottky contacts was observed also in the case of polar semiconductor.

 

The behaviour of SRO layer deposited on STO substrate was investigated. The work has been intended to elucidate a particular microstructural aspect observed in the case of epitaxial perovskite multilayers used as artificial multiferroics. The focus was on explaining the origin of supplementary diffraction spots appearing in forbidden positions in the electron diffraction patterns from selected areas on cross-section multilayered PZT/CFO/PZT/SRO coatings deposited on STO(001) single crystal substrates. By SAED experiments and Fourier filtering of the HRTEM images, the faint diffraction spots noticed in the SAED patterns have been attributed to the SrRuO3 layer used as bottom electrode. By Geometrical Phase Analysis of the HRTEM micrographs we have shown the straightforward relation between the strain distribution inside the SRO layer and the formation of the structurally distorted nanometric domains in SRO. The distortion mechanism consists in a cooperative tilting of the RuO6 octahedra under the compressive strain revealed by GPA. We have shown that the forbidden diffraction spots observed in the SAED patterns originate from nanometric areas inside the SrRuO3 layer, where high values of a local compressive strain have been measured (-4 ÷-5 %). The high local strain leads to a local monoclinic distortion of the orthorhombic lattice of SRO, suppressing the screw axis along [010]SRO and enabling the appearance of diffraction spots in forbidden positions. The further confirmation on the origin of the forbidden spots comes from the simulated diffraction patterns obtained from a monoclinic distorted SRO lattice, where the 0k0SRO spots, k=2n+1, are observed, unlike the orthorhombic undistorted lattice. Although our work does not include an exact crystallographic model of a monoclinic distorted cell of SrRuO3, it provides a mechanism to explain the origin of the observed forbidden spots in the diffraction patterns of the SRO thin films, proving a direct correlation between the compressive strain and the monoclinic distortion in nanosized domains.

HRTEM image including the SRO layer and neighboring areas from the STO substrate and PZT overgrown layer. (b) Corresponding power spectrum. (c) and (d) Bragg-filtered images obtained with the selected reciprocal spots 1 and 2, respectively. Details in Journal of Applied Physics 116, 023516 (2014).

Important results were obtained also regarding the core-shell structures, either in spherical or in cylindrical geometry. Recently were synthetised complex heterostructures formed by Fe nanowires embedded in a matrix of PZT. This will aloow investigation of electrical/magnetic properties in 1D-like geometry, different from the classical case of multilayers.

By Raman measurements combined with Moessbauer spectroscopy it was found that Fe2O3 forms at the Fe-PZT interface during the PZT deposition by PLD (details in a paper published in Physica Status Solidi)

On CoFe2O4 (CFO)-PZT systems grown as multilayers was shown the presence of multiferroic properties (see the figure below)

Some measurements were also performed on core-shell structures based on BTO and a-Fe2O3. It was found that the structures show magnetic properties and good magnetoresistence. BaTiO3–ferrite multiphase composites were prepared starting from di-phase mixtures of -Fe2O3 and BaTiO3 powders. During the sintering step, the formation of small amounts of secondary phases with multifunctional character as BaFe12O19 or Ba12Ti28Fe15O84 was promoted. The resulting multiphase ceramic compounds show interesting dielectric, magnetic and small magnetocapacitance effect at low temperature. The coexistence of different magnetic phases with contrasting coercivities (hard/soft) was detected by the presence of ‘waspwaisted’M(H) hysteresis loops and first-order reversal curve analysis. The present approach demonstrates that active materials can be realised by controlling in situ
reactions at the interfaces in ferroelectric–magnetic oxide composites.

Photoelectron spectroscopy studies of (001) oriented PbTi0.8Zr0.2O3 (PZT) single crystal layers with
submicron resolution revealed areas with different Pb 5d binding energies, attributed to the different charge and polarization states of the film surface. Two novel effects are evidenced by using intense synchrotron radiation beam experiments: (i) the progressive increase of a low binding energy component for the Pb core levels (evidenced for both 5d and 4f, on two different measurement setups), which can be attributed to a partial decomposition of the PZT film at its surface and promoting the growth of metallic Pb during the photoemission process, with the eventuality of the progressive formation of areas with downwards ferroelectric polarization; (ii) for films annealed in oxygen under clean conditions (in an ultrahigh vacuum installation) a huge shift of the Pb 5d core levels (by 8–9 eV) towards higher binding energies is attributed to the formation of areas with depleted mobile charge carriers, whose surface density is insufficient to screen the depolarization field. This shift is attenuated progressively with time, as the sample is irradiated with high flux soft X-rays. The formation of these areas with strong internal electric field promotes these films as good candidates for photocatalysis and solar cells, since in the operation of these devices the ability to perform charge separation and to avoid electron–hole recombination is crucial.

 

It was found that the pyroelectric signal generated by an epitaxial Pb(Zr0.2Ti0.8)O3 film can be enhanced by continuous illumination with ultraviolet (UV) light. The measured signal increases more than 2
times at low modulation frequencies of the incident infrared (IR) radiation (10 Hz) and at
wavelengths where the short-circuit photocurrent presents the maximum value (280–300 nm).
The tentative explanation is that the changes in polarization induced by the temperature variation
under modulated IR illumination are generating a variable internal electric field, able to collect the
photogenerated carriers produced under continuous UV illumination leading to an additional signal
in phase with the pyroelectric one. This finding could be exploited for designing pyroelectric
detectors with enhanced characteristics by combining both UV and IR responses.

 

An important result obtained in 2015 was the discovery of a self-doping mechanism taking place in epitaxial PZT films during the growth phase. The self-doping is promoted by the necessity to compensate the depolarization field occuring in the film due to the fact that the polarization is oriented towards the growing surface. The results were published in Scientific Reports (a Nature Publishing Group journal).

XRD diffraction patterns and TEM images of the samples used for the study related to the self-doping phenomena. It is demonstrated the high epitaxial quality of the PZT films.

Results of the electrical measurements showing that the amplitude of the self-doping effect is reverse proportional with the thickness of the PZT films, leading to a concentration of free carrier that increases as the film thickness decreases.

 

Another important result was to obtain core-shell structures with conical geometry formed by ZnO nano-cones covered with barium titanate (see the figure above).

In the case of the ZnO/Zn1−xMnxO/BaTiO3nanostructure, Ramanscattering and XRD measurements showed the formation of aBaTiO3layer with structure that corresponds to ferroelectric tetragonal phase.

The presence of the principal peaks both of the ZnO/Zn1−xMnxOcore and BaTiO3shell, without significant shifts, in the Raman spectrum of the ZnO/Zn1−xMnxO/BaTiO3 nanostructure suggests lack of unwanted phases, resulted by interfusion or chemical reactions, at the interfaces.

ZnO nanowires were prepared by electrochemical methods.

SEM images of ZnO nanowires.

The ZnO nanoweires were then spread on the surface of a PZT film deposited on a Si substrate using the technique that it is schematically presented in the figures below.

 

SEM images of the ZnO nanowires spread on the surface of the PZT film and contacted with Ti/Au electrodes after using electron beam lithography.

6 PhD positions were occupied: 5 at the coordinating institution (NIMP) and 1 at the partner university (UAIC).

PhD students emploied at NIMP, the provisional title of the thesis and the PhD supervisor:

 

No.NameProvisional title of the PhD thesisSupervisor
1Ibanescu Andra Georgia

(Married Boni)

Charge transport in artificial multiferroic structures

Due date: September 2015

Dr. Lucian Pintilie, CS1

(public defence 29 of September 2015)

2Sandu Simona

(Married Greculeasa)

Magnetic phases and interface coupling in bi-dimensional heterostructuresDr. Victor Kuncser, CS1

(public defence 28 of September 2015)

3Bote MihaelaNanoprocessing and characterization of oxide structures for micro and optoelectronics

Due date: September 2015

Dr. Lucian Pintilie, CS1

(public defence 29 of September 2015)

4Ghita IrinaCharacterization of magnetoelectric coupling in ferroic structuresDr. Victor Kuncser, CS1

in progress

5Costas AndreaaOptical and electronical phenomena in 0D and 1D structures

Due date: September 2015

Dr. Lucian Pintilie, CS1

(public defence 29 of September 2015)

PhD student emploied at UAIC:

Leonetin Padurariu-will develop complex models for simulating the behavior of ferroelectric structures

Stoflea (married Abramiuc) Laura-started PhD in 2014 on ferroelectric surfaces/interfaces for catalysis and photo-catalysis

The post-doc position at NIMP was occupied in 2013 by:

Hrib Luminita-will prepare and characterize new oxide materials with ferromagnetic properties, such as double perovskites

2 young scientists started PhD studies in the last year: Tache Cristian and Burdusel Mihai.

Book title: Size Effects in Nanostructures: Basics and Applications

Springer Series in Materials Science

Volume 205, 2014, pp 77-108

Date: 02 Nov 2014

Chapter: Oxide Thin Films and Nano-heterostructures for Microelectronics

(MOS Structures, Ferroelectric Materials and Multiferroic Heterostructures)

Authoes: I. Pintilie, L. Pintilie, L. D. Filip, L. C. Nistor, C. Ghica

DOI:10.1007/978-3-662-44479-5_4

Print ISBN: 978-3-662-44478-8

 

Book title: 2014-Sustainable Industrial Prpcessing summit/Shechtman International Symposium

Volume 5: Composite, quasi-crystals, nanomaterials, high temperature protection coatings, pp 187-214

Chapter: INTERFACES IN EPITAXIAL STRUCTURES BASED ON OXIDE FERROELECTRICS

Authors: Lucian Pintilie, Ioana Pintilie, Cristian Mihail Teodorescu, Corneliu Ghica, Luminita Hrib, Cristina Chirila,

Lucian Trupina, Andra Georgia Boni, Alin Iuga, Raluca Negrea, Iuliana Pasuk, Mihaela Botea, Lucian Dragos Filip,

Victor Kuncser, Gabriel Schinteie

ISBN: 978-1-987820-11-9

 

Book title: Size Effects in Nanostructures: Basics and Applications

Springer Series in Materials Science

Volume 205, 2014, pp 169-237

Date: 02 Nov 2014

Chapter 7: Engineering Magnetic Properties of Nanostructures via Size Effects and Interphase Interactions

Authors: V. Kuncser, P. Palade, A. Kuncser, S. Greculeasa and G. Schinteie

 

Book title: Surface Science Characterization Techniques for Nanomaterials

C. Kumar (Ed.), Springer, Berlin, pp. 405-461 (2015)

Chapter: Band bending at metal-semiconductor interfaces, ferroelectric surfaces and metal-ferroelectric

interfaces investigated by photoelectron spectroscopy

Authors: N.G. Apostol, C.M. Teodorescu,

ISBN:  978-3-662-44550-1.

Book Title: On form and Pattern

Editure Academiei 2015, pp 101-140

Chapter: Shapes and Patterns in Matter and Fields: inter-related microscopic and macroscopic physical properties

Authors: I. Pintilie, P. Badica, M. Bulinski, V. Kuncser

ISBN: 978-973-27-2531-3

 

In press:

Book title:  Nanoscale Ferroelectrics and Multiferroics: Key Processing and Characterization issues,

and Nanoscale Effects

Wiley, ISBN: 978-1-118-93575-0

Chapter: Interfaces in epitaxial ferroelectric layers/multilayers and their effect on the macroscopic

electrical properties

Authors: Lucian Pintilie, Andra Georgia Boni, Cristina Chirila, Luminita Mirela Hrib, Alin Iuga, Lucian Trupina,

Ioana Pintilie,Iuliana Pasuk, Raluca Negrea, Corneliu Ghica, Mihaela Botea, Nicoleta Apostol

and Cristian Mihail Teodorescu

 

Lista lucrari (luna ianuarie 2016)

 

Nr.

Titlu / JurnalAutoriStatus

FI

1

The impact of the Pb(Zr,Ti)O3-ZnO interface quality on the hysteretic properties of a metal-ferroelectric-semiconductor structure


J. Appl. Phys. 112, 104103 (2012);

doi: 10.1063/1.4765723

I. Pintilie, I. Pasuk, G. A. Ibanescu, R. Negrea, C. Chirila, E. Vasile, L. PintiliePublicat

2.168

2

Growth Aspects of Thin-Film Composite Heterostructures of Oxide Multicomponent Perovskites for Electronics


Japanese Journal of Applied Physics

51 (2012) 11PG09

Kazuhiro Endo, Petre Badica, Shunichi Arisawa, Hiroshi Kezuka, Tamio EndoPublicat

1.058

3

Tailoring non-linear dielectric properties by local field engineering in anisotropic porous ferroelectric structures


Appl. Phys. Lett. 100, 252905 (2012)

L. Padurariu, L. Curecheriu, C. Galassi, L. MitoseriuPublicat

3.844

4

Grain Size-Dependent Properties of Dense Nanocrystalline

Barium Titanate Ceramics


J. Am. Ceram. Soc., 95, 3912-3921 (2012)

L.P. Curecheriu, S.B. Balmus, M.T. Buscaglia, V. Buscaglia, A. Ianculescu, L. MitoseriuPublicat

1.136

5

BaTiO3-ferrite composites with magnetocapacitance and hard/soft magnetic properties


Phase Transitions 86, No. 7, 670–680 (2013)

L. Curecheriu, P. Postolache, V. Buscaglia, M. Alexe, N. Horchidan  and L. MitoseriuPublicat

0.863

6

Tunable dielectric characteristics of Mn-doped BiFeO3 multiferroic ceramics


Scripta Materialia 68 (2013) 305–308

F. Gheorghiu, L. Curecheriu, A. Ianculescu, M. Calugaru, L. MitoseriuPublicat

1.4015

7

Charge transfer and band bending at Au/Pb(Zr0.2Ti0.8)O3 interfaces investigated by photoelectron spectroscopy


Applied Surface Science 273 (2013) 415– 425

Nicoleta G. Apostol, Laura E. Stoflea, George A. Lungu, Cristina Chirila, Lucian Trupina, Raluca F. Negrea, Corneliu Ghica, Lucian Pintilie, Cristian M. TeodorescuPublicat

2.112

8

Band bending at free Pb(Zr,Ti)O3 surfaces analyzed by X-ray photoelectron spectroscopy


Materials Science and Engineering B 178 (2013) 1317– 1322 http://dx.doi.org/10.1016/j.mseb.2013.02.007

Nicoleta G. ApostolLaura E. Stoflea, George A. Lungu, Cristian A. Tache, Dana G. Popescu, Lucian Pintilie, Cristian M. TeodorescuPublicat

1.846

9

Room and high temperature toughening in directionally solidified

4 B4C–TiB2 eutectic composites by Si doping


Journal of Alloys and Compounds 570 (2013) 94–99 http://dx.doi.org/10.1016/j.jallcom.2013.03.084

I.Bogomol, P. Badica, Y. Shen, T. Nishimura, P. Loboda, O. VasylkivPublicat on-line

2.390

10

Band bending in Au/Pb(Zr,Ti)O3 investigated by X-ray photoelectron spectroscopy:

dependence on the initial state of the film


Thin Solid Films 545 (2013) 13–21, http://dx.doi.org/10.1016/j.tsf.2013.04.092

Nicoleta G. Apostol, Laura E. Stoflea, George A. Lungu, Liviu C. Tanase, Cristina Chirila,

Ligia Frunza, Lucian Pintilie, and Cristian M. Teodorescu

Publicat

1.604

11

Structural, electric and magnetic properties of Pb(Zr0.2Ti0.8)O3 – CoFe2O4 heterostructures


Thin Solid Films 545 (2013) 2–7, http://dx.doi.org/10.1016/j.tsf.2013.06.033

C.Chirila, G.Ibanescu, L. Hrib, R. Negrea, I.Pasuk, V. Kuncser, I. Pintilie and L.PintiliePublicat

1.604

12

Electrode interface control of the Schottky diode-like behavior in epitaxial

Pb(Zr0.2Ti0.8)O3 thin films: a critical analysis


J. Appl. Phys. 113, 214108 (2013); http://dx.doi.org/10.1063/1.4808464

L. Hrib, G. A. Boni, C. Chirila, I. Pasuk, I. Pintilie, and L. PintiliePublicat

2.210

13

Electronic transport in (La,Sr)MnO3-ferroelectric-(La,Sr)MnO3 epitaxial structures


J. Appl. Phys. 113, 224103 (2013); http://dx.doi.org/10.1063/1.4808335

G. A. Boni, I. Pintilie, L. Pintilie, D. Preziosi, H. Deniz, M. AlexePublicat

1.105

14

Self-Organization and/or Nanocrystallinity of Co Nanocrystals Effects on the Oxidation Process Using High-Energy Electron Beam


Advanced Functional Materials, 24, 1, 164-170, 2014

Ana Cazacu, Claudio

Larosa, Patricia Beaunier, Guillaume Laurent, Paolo Nanni, Liliana

Mitoseriu, Isabelle Lisiecki

Publicat

9.765

15

Influence of orbital contributions to valence band alignment of Bi2O3, Fe2O3, BiFeO3, and Bi0:5Na0:5TiO3


Physical Review B, 88, 045428 (2013), http://link.aps.org/doi/10.1103/PhysRevB.88.045428

Shunyi Li, Jan Morasch, Andreas Klein, Christina Chirila, Lucian Pintilie, Lichao Jia, Klaus Ellmer, Michael Naderer, Klaus Reichmann, Melanie Gr¨oting, Karsten AlbePublicat

3.767

16

Synthesis and Raman scattering of multiferroic Fe-Pb(Zr0.2Ti0.8)O3 core-shell wire arrays


Phys. Status Solidi A, 1–6 (2013) / DOI 10.1002/pssa.201330062

Mihaela Baibarac, Marian Sima, Elena Matei, Iuliana PasukLucian MihutPublicat on-line

1.469

17

Giant pyroelectric coefficient determined from the frequency dependence of the pyroelectric signal generated by epitaxial Pb(Zr0.2Ti0.8)O3 layers grown on single crystal SrTiO3 substrates


Applied Physics Letters 103, 232902 (2013), DOI: 10.1063/1.4838035

M. Botea, A. Iuga, L. PintiliePublicat

1.897

18

Schottky barrier versus surface ferroelectric depolarization at Cu/Pb(Zr,Ti)O3 interfaces


JOURNAL OF MATERIALS SCIENCE  49(9), 3337-3351 (2014)

Nicoleta G. Apostol, Laura E. Stoflea, Cristina Chirila, Lucian Trupina, Raluca Negrea, Lucian Pintilie, Cristian M. TeodorescuPublicat

2.163

19

Epitaxial growth of Au on Ge(001) surface: Photoelectron spectroscopy

measurements and first-principles calculations


Thin Solid Films 552 (2014) 241–249

Dana G. Popescu, Marius A. HusanuPublicat

1.604

20

Polarization-control of the potential barrier at the electrode interfaces in epitaxial ferroelectric thin films


ACS APPLIED MATERIALS & INTERFACES 6(4), 2936-2946  (2014)

Ioana Pintilie, Cristian Mihail Teodorescu, Corneliu Ghica, Cristina Chirila, Andra Georgia Boni, Luminita Hrib, Iuliana Pasuk, Raluca Damian,  Nicoleta Apostol, Lucian PintiliePublicat

5.008

21

Intrinsic Energy Band Alignment of Functional Oxides


PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS  8(6),  571-576 (2014)

Shunyi Li, Feng Chen,  Robert Schafranek,  Thorsten Bayer,  Karsten Rachut,  Anne Fuchs,  Sebastian Siol,  Mirko Weidner,  Verena Pfeifer,  Jan Morasch,  Cosmina Ghinea,  Emmanuel Arveux,  Richard Günzler, Jürgen Gassmann, Christoph Körber, Yvonne Gassenbauer, Frank Säuberlich, Gutlapalli Venkata Rao, Sandrine Payan, Mario Maglione, Cristina Chirila Lucian Pintilie, Lichao Jia, Klaus Ellmer, Michael Naderer, Klaus Reichmann, Ulrich Böttger, Raluca Frunza, Hana Uršič, Barbara Malič, Wen-Bin Wu, Paul Erhart and Andreas KleinPublicat

2.388

22

Electric-field-induced transformations in epitaxial relaxor ferroelectric PbMg1/3Nb2/32 O3 films


PHYSICAL REVIEW B 89(9), 094106 (2014)

M. Tyunina, I. Pintilie, A. Iuga, and L. PintiliePublicat

3.767

23

Tough and dense boron carbide obtained by high-pressure

(300MPa) and low-temperature (1600°C) spark plasma sintering


PHYSICAL REVIEW B 89(9), 094106 (2014)

Petre BADICA, Salvatore GRASSO, Hanna BORODIANSKA, Sky Shumao

XIE, Peifeng LI, Peter TATARKO, Mike J. REECE, Yoshio SAKKA and Oleg VASYLKIV

Publicat

0.940

24

Influence of the Carbo-Chromization Process on the

Microstructural, Hardness, and Corrosion Properties of 316L

Sintered Stainless Steel


METALLURGICAL AND MATERIALS TRANSACTIONS A

DOI: 10.1007/s11661-014-2247-8

SORIN IORGA, MIHAI COJOCARU, ADRIANA CHIVU, SORIN CIUCA,

MIHAIL BURDUSELPETRE BADICA, CE´ DRIC LEUVREY, GUY SCHMERBER,

CORINNE ULHAQ-BOUILLET, and SILVIU COLIS

Publicat on-line

1.6127

25

Nanoscale monoclinic domains in epitaxial SrRuO3 thin films deposited by pulsed laser deposition


JOURNAL OF APPLIED PHYSICS  116(2),  023516 (2014)

C. Ghica, R.F. Negrea, L. C. Nistor, F. C. Chirila, L. PintiliePublicat

2.210

26

Frustration of ferroelectricity in epitaxial film of relaxor ferroelectric PbSc1/2Nb1/2O3


J. Phys.: Condens. Matter 26 (2014) 325901

Tyunina, M; Pintilie, Ioana; Iuga, A; Stratulat, M; Pintilie, LPublicat

2.355

27

General equivalent circuit derived from capacitance and impedance measurements performed on epitaxial ferroelectric thin films


Journal of Applied Physics 116, 044108 (2014);

L. Pintilie, L. Hrib, I. Pasuk, C. Ghica, A. Iuga, I. PintiliePublicat

2.210

28

 Quasi-static electric field – temperature diagrams in epitaxial relaxor ferroelectric films


Phase Transitions, 2014

http://dx.doi.org/10.1080/01411594.2014.961151

M. Tyunina, I. Pintilie, J. Levoska, L. PintiliePublicat on-line

0.863

29

Evaluation of the Paramagnetic Impurities Segregation at Grain Boundaries in Nanostructured ZnO Films


ACS Applied Materials & Interfaces 2014, 6 (16), pp 14231–14238

DOI: 10.1021/am5035329

D. Ghica, M. Stefan, C. Ghica, G. StanPublicat

5.008

30

Enhancement of pyroelectric signal by continuous ultraviolet illumination of epitaxial Pb(Zr0.2Ti0.8)O3 films


Applied Physics Letters 105, 132901 (2014);

L. Pintilie, M. Botea, A. IugaPublicat

3.515

31

Spectro-microscopic photoemission evidence of

charge uncompensated areas in Pb(Zr,Ti)O3(001)

layers


Phys. Chem. Chem. Phys 10.1039/c4cp04546g

Dana Georgeta Popescu, Marius Adrian Husanu, Lucian Trupina, Luminita Hrib,

Lucian Pintilie, Alexei Barinov, Silvano Lizzit, Paolo Lacovig and

Cristian Mihail Teodorescu

Publicat

4.198

32

Effects of annealing in Be/W and Be/C bilayers deposited on Si(0 0 1) substrates with Fe buffer layers


J Nucl Mater 457 (2015) 220–226

G. SchinteieS.G. Greculeasa, P. Palade, G.A. Lungu, C. Porosnicu, I. Jepu, C.P. Lungu, G. Filoti and V. KuncserPublicata

2.016

33

Magnetic and Mössbauer spectroscopy STUDY of Fe-Cr-Al thin films sputtered on Si substrates


Romanian Reports in Physics 2015, A21

S.G. Greculeasa, G. Schinteie, P.Palade, G.Filoti, I.S. Ghita and V. KuncserPublicata on-line

1.137

34

Raman scattering and photoluminescence studies of ZnO nanowhiskers assembled as flowers in the presence of fullerene


Journal of CrystalGrowth 419 (2015) 158–164

Baibarac Mihaela, Baltog Ion, Matea A., Lefrant SergePublicata

1.698

35

Polarization induced self-doping in epitaxial Pb(Zr0.20Ti0.80)O-3 thin films


Scientific Reports | 5:14974 | DOI: 10.1038/srep14974, 2015

Lucian Pintilie, Corneliu Ghica, Cristian Mihail Teodorescu, Ioana Pintilie, Cristina Chirila,

Iuliana Pasuk, Lucian Trupina, Luminita Hrib, Andra Georgia Boni, Nicoleta Georgiana

Apostol, Laura Elena Abramiuc, Raluca Negrea, Mariana Stefan & Daniela Ghica

Publicata

5.578

36

Photoelectron spectroscopy and spectro-microscopy of Pb(Zr,Ti)O-3 (111) thin layers: Imaging ferroelectric domains with binding energy contrast


Applied Surface Science 352 (2015) 73–81

Marius A. Husanu, Dana G. Popescu, Cristian A. Tache, Nicoleta G. Apostol,Alexei Barinov, Silvano Lizzit, Paolo Lacovig, Cristian M. TeodorescuPublicata

2.711

37

Band bending at copper and gold interfaces with ferroelectricPb(Zr,Ti)O3investigated by photoelectron spectroscopy


Applied Surface Science 354 (2015) 459–468

Nicoleta G. Apostol, Laura E. Stoflea, Liviu C. Tanase, Ioana Cristina Bucur, Cristina Chirila,Raluca F. Negrea, Cristian M. TeodorescuPublicata

2.711

38

Magnetic properties of BaxSr1-xFe12O19 (x=0.05-0.35) ferrites prepared by different methods


Journal of Alloys and Compounds 561 (2013) 121–128

Marin Cernea, Simona-Gabriela Sandu, Carmen Galassi, Roxana Radu, Victor KuncserPublicata

2.999

39

Improvement of impedance spectroscopy methods: resonance analysis of samples


Meas. Sci. Technol. 26 (2015) 065601 (8pp)

Sorin-Bogdan Balmus, Cristina E Ciomaga, Nadejda Horchidan,

Liliana Mitoseriu and Ioan Dumitru

Publicata

1.433

40

Optical properties of Mn doped ZnO films and wires synthesized by thermal oxidation of ZnMn alloy


Thin Solid Films 590 (2015) 141–147

M. Sima, L.Mihut, E. Vasile, Ma. Sima, C. LogofatuPublicata

1.759

41

Comparison between the ferroelectric/electric properties of the PbZr0.52Ti0.48O3 films grown on Si (100) and on STO (100) substrates


J Mater Sci

DOI 10.1007/s10853-015-8907-2

Cristina Chirila1, Andra Georgia Boni1,4, Iuliana Pasuk1, Raluca Negrea1, Lucian Trupina1, Gwenael Le Rhun2, Shi Yin2,3,  Bertrand Vilquin3Ioana Pintilie1, Lucian Pintilie1Publicat

2.371

42

Electrode interface controlled electrical properties in quasi-epitaxial Pb(Zr0.52Ti0.48)O3 films grown on Si substrates with SrTiO3 buffer layer


Thin Solid Films 593 (2015) 124–130

Andra Georgia Boni, Cristina Chirila, Iuliana Pasuk, Raluca Negrea, Lucian Trupina, Gwenael Le Rhun, Bertrand Vilquin, Ioana Pintilie, Lucian PintiliePublicat

1.759

43

Fabrication and Raman scattering of a core–shell structure based onMn doped ZnO and barium titanate


Applied Surface Science 355 (2015) 1057–1062

M. Sima, M. Baibarac, E. Vasile, Ma. Sima, L. MihutPublicat

2.711

44

Electrical properties of templateless electrodeposited ZnO nanowires


Materials Science in Semiconductor Processing

Elena Matei, Andreea Costas, Camelia Florica,Ioana Pintilie, Lucian Pintilie, Ionut EnculescuAcceptata

1.955

45

Non-interacting, sp(2) carbon on a ferroelectric lead zirco-titanate: towards graphene synthesis on ferroelectrics in ultrahigh vacuum


RSC ADVANCES   Volume: 6   Issue: 72   Pages: 67883-67887   Published: 2016

Apostol, N. G.; Lungu, G.; Bucur, I.; Tache, C. A.; Hrib, L.; Pintilie, L.; Macovei, D.; Teodorescu, C. M.Publicat

3.289

46

Metal-ferroelectric-metal current-voltage characteristics: A charge flow balance through interfaces approach


EUROPEAN PHYSICAL JOURNAL B   Volume: 89   Issue: 2     Article Number: 44   Published: FEB 15 2016

Filip, Lucian Dragos; Pintilie, LucianPublicat

1.223

47

Characterization by X-Ray Diffraction of Non-c-Axis Epitaxial Bi2Sr2CaCu2O8+delta Thin Films


IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY   Volume: 26

Issue: 3     Article Number: 7500104  Published: APR 2016

Endo, K.; Arisawa, S.; Kaneko, T.; Tsuyumoto, I.; Tateno, Y.; Badica, P.Publicat

1.092

48

 

STUDY OF THE LEAKAGE CURRENT IN EPITAXIAL FERROELECTRIC Pb(Zr0.52Ti0.48)O-3 LAYER WITH SrRuO3 BOTTOM ELECTRODE AND DIFFERENT METALS AS TOP CONTACTS


DIGEST JOURNAL OF NANOMATERIALS AND BIOSTRUCTURES   Volume: 10   Issue: 4

Pages: 1257-1265  Published: OCT-DEC 2015

Boni, A. G.; Chirila, C.; Hrib, L.; Pintilie, I.; Pintilie, L.Publicat

0.756

49

Electrical properties of NiFe2O3 epitaxial ultra-thin films


Journal of Materials Science

G. A. Boni1, L. Hrib1, S. B. Porter2, G. Atcheson2, I. Pintilie1, K. Rode2, L. Pintilie1Publicata on-line

2.302

50

Influence of hole depletion and depolarizing field on the BaTiO3/La0.6Sr0.4MnO3 interface electronic structure revealed by photoelectron spectroscopy and first-principles calculations


PHYSICAL REVIEW B   Volume: 92   Issue: 23, Article Number: 235442   Published: DEC 28 2015

Dana G. Popescu, Nicholas Barrett, Cristina Chirila, Iuliana Pasuk, and Marius A. HusanuPublicata

3.718

51

Ferroelectric triggering of carbon monoxide adsorption on lead zircotitanate (001) surfaces


Scientific Reports | 6:35301 | DOI: 10.1038/srep35301

Liviu Cristian Tănase, Nicoleta Georgiana Apostol, Laura Elena Abramiuc,

Cristian Alexandru Tache, Luminița Hrib, Lucian Trupină, Lucian Pintilie &

Cristian Mihail Teodorescu

Publicata

5.228

52

High performance FETs based on ZnO nanowires synthesized by low cost methods


Nanotechnology 27 (2016) 475303

Camelia Florica, Andreea Costas, Andrei Kuncser, Nicoleta Preda and

Ionut Enculescu

Publicata

3.573

53

Be/W and W/Be bilayers deposited on Si substrates with hydrogenated Fe-Cr and Fe-Cr-Al interlayers for plasma facing components


Journal of Nuclear Materials 481 (2016) 73-80

S.G. Greculeasa, P. Palade, G. Schinteie, G.A. Lungu, C. Porosnicu, I. Jepu, C.P. Lungu, V. KuncserPublicata

2.199

54

A general perspective of the magnetization reversal in cylindrical soft magnetic nanowires with dominant shape anisotropy


http://dx.doi.org/10.1016/j.jmmm.2016.09.066,

to be published in J. Magn. Magn. Mat

A. Kuncser, S. Antohe, V. KuncserPublicata on-line

2.357

55

Optical Properties of Single-Walled Carbon Nanotubes Highly Separated in Semiconducting and Metallic Tubes Functionalized with Poly(Vinylidene Fluoride)


Journal of Molecular Structure, 1130, 38-45, 2017

A Matea, M Baibarac, I BaltogPublicata

1.780

56

Arrays of core-shell Ni-PVDF nanowires via a template method


Materials Chemistry and Physics

M. Sima, M. Baibarac, E. Vasile, Ma. Sima, G.A. Schinteie, V. KuncserSubmisa

57

Low energy electron diffraction from ferroelectric surfaces. Dead layers and surface dipoles in ultraclean Pb(Zr,Ti)O3(001)


Nature Phys.

C.M. Teodorescu, L. Pintilie, N.G. Apostol, L.C. Tănase, I.C. Bucur, A.E. Bocîrnea, R.M. Costescu, G.A. Lungu, L. Hrib, C.A. Tache,Submisa

58

Morphology and thermal properties of high temperature SPS-ed SIC


Ceramics International

M. Galatanu, M. Enculescu, G. Ruiu, A. GalatanuSubmisa

TOTAL F.I. lucrari publicate

137.8032

 

The project was advertised by an article in Market Watch (see the link below)

http://www.marketwatch.ro/articol/11530/Studiul_interfetelor___in_structuri_oxidice_-_prioritate_de_cercetare_in_INC_DFM_pentru_urmatorii_3_ani/

 

Between 12 and 14 of June 2013 the NIMP team of the project will be visited by Dr. Manuel Bibes, recent winner of the E-40 award at the E-MRS conference in Strasbourg, France.

Manuel Bibes-short CV-Download

Manuel Bibes will give a seminar on 13 of June-Download

Recently the director of the project has won a long term project at the Elettra synchrotron in Trieste. The project is for 2 years period and will allow direct investigation of the ferroic interfaces by using synchtrotron radiation. the final aim of the project is to investigate the intreface between graphene and epitaxial ferroelectric layers.The project title is "In-situ investigation of ferroelectric-graphene interface formation and properties by using combined microscopy (STM) and high resolution XPS techniques with aim towards optimized, high-speed field effect devices."

 

 

The results of the project were also diseminated by comunications at international conferences. It worth to be mentioned the invited lectures that were or will be presented by the project director:

"Electric properties of epitaxial ferroelectric thin films with perovskite structure and different metals as top electrodes"

Invited at symposium O of E-MRS spring meeting, held in Strasbourg between 27 and 31 of May 2013

"Effect of interfaces on the properties of thin films and multilayers with ferroelectric properties"

Invited at symposium "Complex oxides" of the conference IC4N, to be held in Corfu, Greece, between 16 and 20 of June 2013

The project has generated new project proposals, with a marked orientation towards applications:

-"Novel generation of pyroelectric detectors based on polar semiconductors"-accepted for funding at the 2013 M-ERA net call (see https://www.m-era.net/joint-call-2013)-will start at 1 of January 2015

-"Pyroelectricity in PZT thin films and multilayers"-accepted at the 2014 IFA-CEA call (see http://www.ifa-mg.ro/cea/)-started at 1 of July 2014 (24 months)

-"Integrated – Smart Optical Sensors for Mobile AiR Testing"-submitted for Horizon 2020, call H2020-ICT-2014-1, topic ICT-26-2014, proposal number: SEP-210140423

-"Synchrotron-based spectroscopic and microscopic tools to probe graphene-like two-dimensional materials "-submitted to Graphene-Based Revolutions in ICT And Beyond (GRAPHENE Flagship, see also http://graphene-flagship.eu/?page_id=8)

-"Optimized pyroelectric materials through the polarization gradient concept and experimental model for a pyroelectric detector with potential for applications in monitoring high power/energy lasers."-Accepted at the 2013 Partnership call "PN-II-PT-PCCA-2013-4"-started at 1 of July 2014 (24 months)

The project Director was Chair of the Electroceramics XIV conference, which was held in Bucharest, at Intercontinental Hotel, between 15 and 20 of June 2014. More than 360 abstracts were submitted, and more than 300 participants from all over the world have attended the conference (see also www.electroceramics14.com for more details).

Prof. Scott during his plenary presentation at Electroceramics XIV.

The project director closing the Electroceramics XIV conference.

 

Between 29 of June and 4 of July the Project Director has participated to the Schechtman International Symposium held in Cancun, Mexic. The title of the invited talk:

"Interfaces in Epitaxial Structures based on Oxide Ferroelectrics"

See also http://www.flogen.org/ShechtmanSymposium/

An important moment was the visit of Prof. Albert FERT, at the invitation of the Project Director. Prof. FERT is the Nobel prize laureate for Physics in 2007. He visited the institute between 1 and 3 of October 2014.

The Project Director during the discussions at the end of the seminar presented by Prof. FERT on 2 of October 2014 in the Institute.

Project Director was co-organizer of two conferences in 201

7 th International Conference on Amorphous and Nanostructured Chalcogenides, Cluj-Napoca, 5- 10 iulie 2015 http://www.infim.ro/events/amorphous-and-nanostructured-chalcogenides-anc-7-conference

8 th International Conference on Advanced Materials (ROCAM), București, 7-10 iulie 2015 http://rocam.unibuc.ro/rocam2015/ 

In 206 he organized the first edition of the International Workshop on Advanced Materials

Presentation of professor Rodrigo Martins, former president of EMRS, present president of the Senate of EMRS

Presentation of Profesor Elvira Fortunato, vice-president of High Level Expert Group appointed as advisory body for the President of EC.


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