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111 results on '"Lüders, Ulrike"'

1. Improving the long-term stability of new-generation perovskite-based TCO using binary and ternary oxides capping layers

Author

Mezhoud, Moussa, Rath, Martando, Gascoin, Stéphanie, Duprey, Sylvain, Marie, Philippe, Cardin, Julien, Labbé, Christophe, Prellier, Wilfrid, and Lüders, Ulrike

Subjects
Condensed Matter - Materials Science
Abstract

We report the impact of capping layers on vanadate based transparent conductive oxides (TCOs) to prolong the thermal stability with a minimal loss of resistivity during heat treatment in ambient environment. In the present study, various protecting layers (amorphous Al2O3, LaAlO3 (LAO), TiO2 grown in base pressure and TiO2 deposited under oxygen partial pressure) are grown in-situ on polycrystalline perovskite SrVO3 (SVO) thin films using Pulsed Laser Deposition (PLD). The results show that amorphous LaAlO3 is the most promising protection layer among the oxide layers, to preserve both electrical and optical properties of perovskite SVO films from natural as well as artificial aging. Our present approach for a capping layer on SVO may address the long-term stability issues of correlated TCOs and would open an opportunity for the future oxide electronics applications.

Published
2024

2. Uncovering the lowest thickness limit for room-temperature ferromagnetism of Cr$_{1.6}$Te$_{2}$

Author

Chaluvadi, Sandeep Kumar, Chalil, Shyni Punathum, Jana, Anupam, Dagur, Deepak, Vinai, Giovanni, Motti, Federico, Fujii, Jun, Mezhoud, Moussa, Lüders, Ulrike, Polewczyk, Vincent, Vobornik, Ivana, Rossi, Giorgio, Bigi, Chiara, Hwang, Younghun, Olsen, Thomas, Orgiani, Pasquale, and Mazzola, Federico

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons
Abstract

Metallic ferromagnetic transition metal dichalcogenides have emerged as important building blocks for scalable magnonics and memory applications. Downscaling such systems to the ultra-thin limit is critical to integrate them into technology. Here, we achieved layer-by-layer control over the transition metal dichalcogenide Cr$_{1.6}$Te$_{2}$ by using pulsed laser deposition, and we uncovered the minimum critical thickness above which room temperature magnetic order is maintained. The electronic and magnetic structure is explored experimentally and theoretically and it is shown that the films exhibit strong in-plane magnetic anisotropy as a consequence of large spin-orbit effects. Our study elucidates both magnetic and electronic properties of Cr$_{1.6}$Te$_{2}$, and corroborates the importance of intercalation to tune the magnetic properties of nanoscale materials architectures., Comment: 21 pages, 4 figures

Published
2024
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3. Oxygen vacancy dynamics in Pt/TiOx/TaOy/Pt memristors: exchange with the environment and internal electromigration

Author

Martir, Rodrigo Leal, Sánchez, María José, Aguirre, Myriam, Quiñonez, Walter, Ferreyra, Cristian, Acha, Carlos, Lecourt, Jerome, Lüders, Ulrike, and Rubi, Diego

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Memristors are expected to be one of the key building blocks for the development of new bio-inspired nanoelectronics. Memristive effects in transition metal oxides are usually linked to the electromigration at the nanoscale of charged oxygen vacancies (OV). In this paper we address, for Pt/TiOx/TaOy/Pt devices, the exchange of OV between the device and the environment upon the application of electrical stress. From a combination of experiments and theoretical simulations we determine that both TiOx and TaOy layers oxidize, via environmental oxygen uptake, during the electroforming process. Once the memristive effect is stabilized (post-forming behavior) our results suggest that oxygen exchange with the environment is suppressed and the OV dynamics that drives the memristive behavior is restricted to an internal electromigration between TiOx and TaOy layers. Our work provides relevant information for the design of reliable binary oxide memristive devices., Comment: preprint 20 pages, 4 figures

Published
2022
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5. Magnetism tailored by mechanical strain engineering in PrVO$_3$ thin films

Author

Kumar, Deepak, David, Adrian, Fouchet, Arnaud, Pautrat, Alain, Varignon, Julien, Jung, Chang Uk, Lüders, Ulrike, Domengès, Bernadette, Copie, Olivier, Ghosez, Philippe, and Prellier, Wilfrid

Subjects
Condensed Matter - Materials Science
Abstract

Transition-metal oxides with an ABO$_3$ perovskite structure exhibit strongly entangled structural and electronic degrees of freedom and thus, one expects to unveil exotic phases and properties by acting on the lattice through various external stimuli. Using the Jahn-Teller active praseodymium vanadate Pr$^{3+}$V$^{3+}$O$_3$ compound as a model system, we show that PrVO$_3$ N\'eel temperature T$_N$ can be raised by 40 K with respect to the bulk when grown as thin films. Using advanced experimental techniques, this enhancement is unambiguously ascribed to a tetragonality resulting from the epitaxial compressive strain experienced by the films. First-principles simulations not only confirm experimental results, but they also reveal that the strain promotes an unprecedented orbital-ordering of the V$^{3+}$ d electrons, strongly favouring antiferromagnetic interactions. These results show that an accurate control of structural aspects is the key for unveiling unexpected phases in oxides.

Published
2019
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7. Structural, optical, and electrical properties of TiO2 thin films deposited by ALD: Impact of the substrate, the deposited thickness and the deposition temperature

Author

Jolivet, Aline, Labbé, Christophe, Frilay, Cédric, Debieu, Olivier, Marie, Philippe, Horcholle, Bryan, Lemarié, Franck, Portier, Xavier, Grygiel, Clara, Duprey, Sylvain, Jadwisienczak, Wojciech, Ingram, David, Upadhyay, Mudit, David, Adrian, Fouchet, Arnaud, Lüders, Ulrike, and Cardin, Julien

Published
2023
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10. Tuning the electronic properties at the surface of BaBiO3 thin films

Author

Ferreyra, Cristian, Guller, Francisco, Marchini, Florencia, Lüders, Ulrike, Albornoz, Cecilia, Leyva, Ana Gabriela, Williams, Federico José, Llois, Ana María, Vildosola, Verónica, and Rubi, Diego

Subjects
Condensed Matter - Materials Science
Abstract

The presence of 2D electron gases at surfaces or interfaces in oxide thin films remains a hot topic in condensed matter physics. In particular, BaBiO3 appears as a very interesting system as it was theoretically proposed that its (001) surface should become metallic if a Bi-termination is achieved (Vildosola et al., PRL 110, 206805 (2013)). Here we report on the preparation by pulsed laser deposition and characterization of BaBiO3 thin films on silicon. We show that the texture of the films can be tuned by controlling the growth conditions, being possible to stabilize strongly (100)-textured films. We find significant differences on the spectroscopic and transport properties between (100)-textured and non-textured films. We rationalize these experimental results by performing first principles calculations, which indicate the existence of electron doping at the (100) surface. This stabilizes Bi ions in a 3+ state, shortens Bi-O bonds and reduces the electronic band gap, increasing the surface conductivity. Our results emphasize the importance of surface effects on the electronic properties of perovskites, and provide strategies to design novel oxide heterostructures with potential interface-related 2D electron gases., Comment: 13 pages, 5 figures. To appear in AIP Advanced

Published
2015

15. On the ferromagnetic character of (LaVO$_3$)$_m$/SrVO$_3$ superlattices

Author

Schuster, Cosima, Lueders, Ulrike, Schwingenschloegl, Udo, and Fresard, Raymond

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

The experimental observation that vanadate superlattices (LaVO$_3$)$_m$/SrVO$_3$ show ferromagnetism up to room temperature [U.\ L\"uders {\it et al.}, Phys.\ Rev.\ B {\bf 80}, 241102R (2009)] is investigated by means of density functional theory. First, the influence of the density functional on the electronic and magnetic structure of bulk ${\rm LaVO_3}$ is discussed. Second, the band structure of a (LaVO$_3$)$_m$/SrVO$_3$ slab for $m=5$ and 6 is calculated. Very different behaviors for odd and even values of $m$ are found: In the odd case lattice relaxation results into a buckling of the interface VO$_2$ layers that leads to spin-polarized interfaces. In the even case a decoupling of the interface VO$_2$ layers from the LaO layers is obtained, confining the interface electrons into a two-dimensional electron gas. The orbital reconstruction at the interface due to the lattice relaxation is discussed., Comment: 8 pages, 7 figures

Published
2012
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16. Tuning the Transparency Window of SrVO3Transparent Conducting Oxide

Author

Cheikh, Aïmane, El khaloufi, Oualyd, Rath, Martando, Lüders, Ulrike, Fouchet, Arnaud, Cardin, Julien, Labbé, Christophe, Prellier, Wilfrid, and David, Adrian

Abstract

Correlated transparent conducting oxides (TCOs) have gained great attention, because of their unique combination of transparency and metallic character. SrVO3(SVO) was identified as a high-performance TCO in the visible range. Few studies have investigated band structure engineering through chemical doping to enhance the optical properties of SVO. Here, we use two different strategies by exploiting the band-filling and width of the bands derived from Vanadium to tune the screened plasma frequency ωp*and the interband transition Ep–denergy, corresponding to the optical transparency window edges. For control of the band-filling strategy, it is found that Titanium doped SVO has a wide transparency window, but such a composition does not maintain the high electrical conductivity required for TCO applications. Concerning the bandwidth strategy, the doping of SrVO3by Calcium shows that ωp*remains located in the IR range (1.12 eV), while Ep–dis blue-shifted into the UV region (3.43 eV) due to reinforced electronic correlations. By an appropriate choice of dopant, we successfully increased the size of the transparency window by around 11% from 1.94 eV (SVO) to 2.30 eV (Calcium-doped SVO), while retaining high conductivity of around 2.30 × 104(S·cm–1) and high charge carrier density of 2.93 × 1022cm–3.

Published
2024
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17. AFM-sMIM Characterization of the Recombination-Enhancing Buffer Layer for Bipolar Degradation Free SiC MOSFETs

Author

Germanicus, Rosine Coq, Phulpin, Tanguy, Niskanen, Kimmo, Michez, Alain, and Lüders, Ulrike

Abstract

Due to the expansion of defects like single Shockley-type Stacking Faults inside the SiC epitaxial drift layer, during high current stress, classical SiC MOSFETs can be victims of the degradation of their electrical characteristics. The introduction of an epitaxial SiC buffer layer between the substrate and the n- drift epilayer, called recombination-enhancing buffer layer, was shown to avoid this degradation. In this paper, TCAD simulations of the electrical behavior of such a commercial SiC MOSFET device with varying buffer layer thickness are studied, indicating only small modifications of the electrical characteristics. These simulations are combined with the characterization of the local electrical properties using an AFM-sMIM technique, allowing to determine the real thickness of the different layers of the device. These measurements highlight an inhomogeneous conductivity in the SiC substrate, being probably compensated by the introduction of the SiC buffer layer.

Published
2024
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19. Spinel ferrites: old materials bring new opportunities for spintronics

Author

Lueders, Ulrike, Barthelemy, Agnes, Bibes, Manuel, Bouzehouane, Karim, Fusil, Stephane, Jacquet, Eric, Contour, Jean-Pierre, Bobo, Jean-Francois, Fontcuberta, Josep, and Fert, Albert

Subjects
Condensed Matter - Materials Science
Abstract

Over the past few years, intensive studies of ultrathin epitaxial films of perovskite oxides have often revealed exciting properties like giant magnetoresistive tunnelling and electric field effects. Spinel oxides appear as even more versatile due to their more complex structure and the resulting many degrees of freedom. Here we show that the epitaxial growth of nanometric NiFe2O4 films onto perovskite substrates allows the stabilization of novel ferrite phases with properties dramatically differing from bulk ones. Indeed, NiFe2O4 films few nanometres thick have a saturation magnetization at least twice that of the bulk compound and their resistivity can be tuned by orders of magnitude, depending on the growth conditions. By integrating such thin NiFe2O4 layers into spin-dependent tunnelling heterostructures, we demonstrate that this versatile material can be useful for spintronics, either as a conductive electrode in magnetic tunnel junctions or as a spin-filtering insulating barrier in the little explored type of tunnel junction called spin-filter. Our findings are thus opening the way for the realisation of monolithic spintronics architectures integrating several layers of a single material, where the layers are functionalised in a controlled manner.

Published
2005

20. Enhanced magnetic moment and conductive behavior in NiFe2O4 spinel ultrathin films

Author

Lueders, Ulrike, Bibes, Manuel, Bobo, Jean-Francois, Cantoni, Matteo, Bertacco, Riccardo, and Fontcuberta, Josep

Subjects
Condensed Matter - Materials Science
Abstract

Bulk NiFe2O4 is an insulating ferrimagnet. Here, we report on the epitaxial growth of spinel NiFe2O4 ultrathin films onto SrTiO3 single-crystals. We will show that - under appropriate growth conditions - epitaxial stabilization leads to the formation of a spinel phase with magnetic and electrical properties that radically differ from those of the bulk material : an enhanced magnetic moment (Ms) - about 250% larger - and a metallic character. A systematic study of the thickness dependence of Ms allows to conclude that its enhanced value is due to an anomalous distribution of the Fe and Ni cations among the A and B sites of the spinel structure resulting from the off-equilibrium growth conditions and to interface effects. The relevance of these findings for spinel- and, more generally, oxide-based heterostructures is discussed. We will argue that this novel material could be an alternative ferromagetic-metallic electrode in magnetic tunnel junctions., Comment: accepted for publication in Phys. Rev. B

Published
2005
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24. Formation and Etching of the Insulating Sr‐Rich V 5+ Phase at the Metallic SrVO 3 Surface Revealed by Operando XAS Spectroscopy Characterizations

Author

Polewczyk, Vincent, primary, Mezhoud, Moussa, additional, Rath, Martando, additional, El‐Khaloufi, Oualyd, additional, Bassato, Ferdinando, additional, Fouchet, Arnaud, additional, Prellier, Wilfrid, additional, Frégnaux, Mathieu, additional, Aureau, Damien, additional, Braglia, Luca, additional, Vinai, Giovanni, additional, Torelli, Piero, additional, and Lüders, Ulrike, additional

Published
2023
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25. Artificial Aging of Thin Films of the Indium-Free Transparent Conducting Oxide SrVO3

Author

Rath, Martando, primary, Mezhoud, Moussa, additional, El Khaloufi, Oualyd, additional, Lebedev, Oleg, additional, Cardin, Julien, additional, Labbé, Christophe, additional, Gourbilleau, Fabrice, additional, Polewczyk, Vincent, additional, Vinai, Giovanni, additional, Torelli, Piero, additional, Fouchet, Arnaud, additional, David, Adrian, additional, Prellier, Wilfrid, additional, and Lüders, Ulrike, additional

Published
2023
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26. Oxygen vacancy dynamics in Pt/TiOx/TaOy/Pt memristors: exchange with the environment and internal electromigration

Author

Universidad Nacional de Cuyo, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), European Commission, Leal Martir, Rodrigo, Sánchez, M. J., Aguirre, Myriam H., Quiñonez, Walter, Ferreyra, C., Acha, C., Lecourt, J., Lüders, Ulrike, Rubi, Diego, Universidad Nacional de Cuyo, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), European Commission, Leal Martir, Rodrigo, Sánchez, M. J., Aguirre, Myriam H., Quiñonez, Walter, Ferreyra, C., Acha, C., Lecourt, J., Lüders, Ulrike, and Rubi, Diego

Abstract

Memristors are expected to be one of the key building blocks for the development of new bio-inspired nanoelectronics. Memristive effects in transition metal oxides are usually linked to the electromigration at the nanoscale of charged oxygen vacancies (OV). In this paper we address, for Pt/TiOx/TaOy/Pt devices, the exchange of OV between the device and the environment upon the application of electrical stress. From a combination of experiments and theoretical simulations we determine that both TiOx and TaOy layers oxidize, via environmental oxygen uptake, during the electroforming process. Once the memristive effect is stabilized (post-forming behavior) our results suggest that oxygen exchange with the environment is suppressed and the OV dynamics that drives the memristive behavior is restricted to an internal electromigration between TiOx and TaOy layers. Our work provides relevant information for the design of reliable binary oxide memristive devices.

Published
2023

28. Epitaxial ferroelectric memristors integrated with silicon

Author

Rengifo, Miguel, Aguirre, Myriam H., Sirena, Martín, Lüders, Ulrike, Rubi, Diego, European Commission, and Agencia Nacional de Promoción Científica y Tecnológica (Argentina)

Subjects
Biomedical Engineering, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Computer Science Applications, Electronic, Optical and Magnetic Materials
Abstract

Neuromorphic computing requires the development of solid-state units able to electrically mimic the behavior of biological neurons and synapses. This can be achieved by developing memristive systems based on ferroelectric oxides. In this work we fabricate and characterize high quality epitaxial BaTiO3-based memristors integrated with silicon. After proving the ferroelectric character of BaTiO3 we tested the memristive response of LaNiO3/BaTiO3/Pt microstructures and found a complex behavior which includes the co-existence of volatile and non-volatile effects, arising from the modulation of the BaTiO3/Pt Schottky interface by the direction of the polarization coupled to oxygen vacancy electromigration to/from the interface. This produces remanent resistance loops with tunable ON/OFF ratio and asymmetric resistance relaxations. These properties might be harnessed for the development of neuromorphic hardware compatible with existing silicon-based technology., We acknowledge Marten Piantek, from LMA-INA-UNIZAR, for the PFM measurements. We acknowledge support from ANPCyT (PICT 2019-02781, PICT2020A-00415) and EU-H2020-RISE project MELON (Grant No. 872631).

Published
2022
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30. Formation and Etching of the Insulating Sr‐Rich V5+ Phase at the Metallic SrVO3 Surface Revealed by Operando XAS Spectroscopy Characterizations.

Author

Polewczyk, Vincent, Mezhoud, Moussa, Rath, Martando, El‐Khaloufi, Oualyd, Bassato, Ferdinando, Fouchet, Arnaud, Prellier, Wilfrid, Frégnaux, Mathieu, Aureau, Damien, Braglia, Luca, Vinai, Giovanni, Torelli, Piero, and Lüders, Ulrike

Subjects
METALLIC surfaces, ETCHING, THIN films, X-ray absorption, SPECTROMETRY, X-ray absorption near edge structure
Abstract

In the search of low cost and more efficient electronic devices, here the properties of SrVO3 transparent conductor oxide (TCO) thin film are investigated, both visible‐range optically transparent and highly conductive, it stands as a promising candidate to substitute the standard indium‐tin‐oxide (ITO) in applications. Its surface stability under water (both liquid and vapor) and other gaseous atmospheres is especially addressed. Through the use of spectroscopy characterizations, X‐ray photoemission and operando X‐ray absorption measurements, the formation of a thin Sr‐rich V5+ layer located at the surface of the polycrystalline SrVO3 film with aging is observed, and for the first time how it can be removed from the surface by solvating in water atmosphere. The surface recovery is associated to an etching process, here spectroscopically characterized in operando conditions, allowing to follow the stoichiometric modification under reaction. Once exposed in oxygen atmosphere, the Sr‐rich V5+ layer forms again. The findings improve the understanding of aging effects in perovskite oxides, allowing for the development of functionalized films in which it is possible to control or to avoid an insulating surface layer. This constitutes an important step towards the large‐scale use of V‐based TCOs, with possible implementations in oxide‐based electronics. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Epitaxial ferroelectric memristors integrated with silicon

Author

European Commission, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Rengifo, Miguel, Aguirre, Myriam H., Sirena, Martín, Lüders, Ulrike, Rubi, Diego, European Commission, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Rengifo, Miguel, Aguirre, Myriam H., Sirena, Martín, Lüders, Ulrike, and Rubi, Diego

Abstract

Neuromorphic computing requires the development of solid-state units able to electrically mimic the behavior of biological neurons and synapses. This can be achieved by developing memristive systems based on ferroelectric oxides. In this work we fabricate and characterize high quality epitaxial BaTiO3-based memristors integrated with silicon. After proving the ferroelectric character of BaTiO3 we tested the memristive response of LaNiO3/BaTiO3/Pt microstructures and found a complex behavior which includes the co-existence of volatile and non-volatile effects, arising from the modulation of the BaTiO3/Pt Schottky interface by the direction of the polarization coupled to oxygen vacancy electromigration to/from the interface. This produces remanent resistance loops with tunable ON/OFF ratio and asymmetric resistance relaxations. These properties might be harnessed for the development of neuromorphic hardware compatible with existing silicon-based technology.

Published
2022

35. Tunable magnetic and magnetotransport properties in locally epitaxial La0.67Sr0.33MnO3 thin films on polycrystalline SrTiO3, by control of grain size

Author

Dallocchio, Marie, primary, Boileau, Alexis, additional, Mercey, Bernard, additional, David, Adrian, additional, Lüders, Ulrike, additional, Froissart, Sandrine, additional, Larose, Xavier, additional, Bérini, Bruno, additional, Dumont, Yves, additional, Pautrat, Alain, additional, Prellier, Wilfrid, additional, and Fouchet, Arnaud, additional

Published
2022
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37. Oxygen vacancy dynamics in Pt/TiOx/TaOy/Pt memristors: exchange with the environment and internal electromigration.

Author

Leal Martir, Rodrigo, José Sánchez, María, Aguirre, Myriam, Quiñonez, Walter, Ferreyra, Cristian, Acha, Carlos, Lecourt, Jerome, Lüders, Ulrike, and Rubi, Diego

Subjects
ELECTRODIFFUSION, MEMRISTORS, OXYGEN, INFORMATION design, TRANSITION metal oxides, OXYGEN reduction
Abstract

Memristors are expected to be one of the key building blocks for the development of new bio-inspired nanoelectronics. Memristive effects in transition metal oxides are usually linked to the electromigration at the nanoscale of charged oxygen vacancies (OV). In this paper we address, for Pt/TiO x /TaO y /Pt devices, the exchange of OV between the device and the environment upon the application of electrical stress. From a combination of experiments and theoretical simulations we determine that both TiO x and TaO y layers oxidize, via environmental oxygen uptake, during the electroforming process. Once the memristive effect is stabilized (post-forming behavior) our results suggest that oxygen exchange with the environment is suppressed and the OV dynamics that drives the memristive behavior is restricted to an internal electromigration between TiO x and TaO y layers. Our work provides relevant information for the design of reliable binary oxide memristive devices. [ABSTRACT FROM AUTHOR]

Published
2023
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38. Highly Transparent and Conductive Indium‐Free Vanadates Crystallized at Reduced Temperature on Glass Using a 2D Transparent Nanosheet Seed Layer

Author

Boileau, Alexis, primary, Hurand, Simon, additional, Baudouin, Florent, additional, Lüders, Ulrike, additional, Dallocchio, Marie, additional, Bérini, Bruno, additional, Cheikh, Aimane, additional, David, Adrian, additional, Paumier, Fabien, additional, Girardeau, Thierry, additional, Marie, Philippe, additional, Labbé, Christophe, additional, Cardin, Julien, additional, Aureau, Damien, additional, Frégnaux, Mathieu, additional, Guilloux‐Viry, Maryline, additional, Prellier, Wilfrid, additional, Dumont, Yves, additional, Demange, Valérie, additional, and Fouchet, Arnaud, additional

Published
2021
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39. Impact of the Growth Mechanisms on Si and Glass Substrates on the Structural, Optical and Electrical Properties of Anatase TiO2 Thin Films Synthetized By ALD Technique (Oral)

Author

Jolivet, Aline, primary, Labbé, Christophe, additional, Frilay, Cédric, additional, Debieu, Olivier, additional, Marie, Philippe, additional, Lemarié, Franck, additional, Portier, Xavier, additional, Grygiel, Clara, additional, Upadhyay, Mudit, additional, David, Adrian, additional, Fouchet, Arnaud, additional, Lüders, Ulrike, additional, and Cardin, Julien, additional

Published
2021
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41. Selective activation of memristive interfaces in TaO x -based devices by controlling oxygen vacancies dynamics at the nanoscale

Author

Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), European Commission, Ferreyra, C., Sánchez, M. J., Aguirre, Myriam H., Acha, C., Bengió, S., Lecourt, J., Lüders, Ulrike, Rubi, Diego, Agencia Nacional de Promoción Científica y Tecnológica (Argentina), Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), European Commission, Ferreyra, C., Sánchez, M. J., Aguirre, Myriam H., Acha, C., Bengió, S., Lecourt, J., Lüders, Ulrike, and Rubi, Diego

Abstract

The development of novel devices for neuromorphic computing and non-traditional logic operations largely relies on the fabrication of well controlled memristive systems with functionalities beyond standard bipolar behavior and digital ON–OFF states. In the present work we demonstrate for Ta2O5-based devices that it is possible to selectively activate/deactivate two series memristive interfaces in order to obtain clockwise or counter-clockwise multilevel squared remanent resistance loops, just by controlling both the electroforming process and the (a)symmetry of the applied stimuli, and independently of the nature of the used metallic electrodes. Based on our thorough characterization, analysis and modeling, we show that the physical origin of this electrical behavior relies on controlled oxygen vacancies electromigration between three different nanoscopic zones of the active Ta2O5−x layer: a central one and two quasi-symmetric interfaces with reduced TaO2−h(y) layers. Our devices fabrication process is rather simple as it implies the room temperature deposition of only one CMOS compatible oxide—Ta-oxide—and one metal, suggesting that it might be possible to take advantage of these properties at low cost and with easy scability. The tunable opposite remanent resistance loops circulations with multiple—analogic—intermediate stable states allows mimicking the adaptable synaptic weight of biological systems and presents potential for non-standard logic devices.

Published
2020

42. Dopant activity for highly in-situ doped polycrystalline silicon: hall, XRD, scanning capacitance microscopy (SCM) and scanning spreading resistance microscopy (SSRM)

Author

Coq Germanicus, Rosine, primary, Lallemand, Florent, additional, Chateigner, Daniel, additional, Jouha, Wadia, additional, Moultif, Niemat, additional, Latry, Olivier, additional, Fouchet, Arnaud, additional, Murray, Hugues, additional, Bunel, Catherine, additional, and Lüders, Ulrike, additional

Published
2021
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45. Three dimensional resistance mapping of self-organized Sr3V2O8 nanorods on metallic perovskite SrVO3 matrix

Author

Germanicus, Rosine Coq, primary, Bourlier, Yoan, additional, Notot, Vincent, additional, Bérini, Bruno, additional, Demange, Valérie, additional, Berthe, Maxime, additional, Boileau, Alexis, additional, Euchin, Matthieu, additional, Dumont, Yves, additional, Aureau, Damien, additional, Fregnaux, Mathieu, additional, Grandidier, Bruno, additional, Lüders, Ulrike, additional, David, Adrian, additional, Prellier, Wilfrid, additional, Biadala, Louis, additional, and Fouchet, Arnaud, additional

Published
2020
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46. Highly Transparent and Conductive Indium‐Free Vanadates Crystallized at Reduced Temperature on Glass Using a 2D Transparent Nanosheet Seed Layer.

Author

Boileau, Alexis, Hurand, Simon, Baudouin, Florent, Lüders, Ulrike, Dallocchio, Marie, Bérini, Bruno, Cheikh, Aimane, David, Adrian, Paumier, Fabien, Girardeau, Thierry, Marie, Philippe, Labbé, Christophe, Cardin, Julien, Aureau, Damien, Frégnaux, Mathieu, Guilloux‐Viry, Maryline, Prellier, Wilfrid, Dumont, Yves, Demange, Valérie, and Fouchet, Arnaud

Subjects
VANADATES, GLASS, ELLIPSOMETRY, SEEDS, INDIUM, TEMPERATURE, TRANSPARENT ceramics
Abstract

Indium‐tin‐oxide (ITO) is a widely employed transparent conducting oxide (TCO), but the indium scarcity and price encourage developing some alternatives. The correlated metals CaVO3 and SrVO3 have been recently identified as new TCOs with functional properties being comparable to ITO. However, their technological potential is limited by the critical requirement of a perovskite structure of the film, impossible to achieve via direct growth on substrates commonly used for applications. In this article, the authors tackle this limitation by demonstrating the crystalline growth of vanadate TCOs on glass at temperatures below 600 °C, with the help of 2D nanosheets as transparent seed layers. The functional properties do not suffer from the textured structure of the films, as confirmed by an in‐depth spectroscopic ellipsometry study, allowing for an industrially viable approach to integrate vanadate TCOs on virtually any surface and to exploit their promising performances as a new generation TCO. [ABSTRACT FROM AUTHOR]

Published
2022
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47. Textured Manganite Films Anywhere

Author

Boileau, Alexis, primary, Dallocchio, Marie, additional, Baudouin, Florent, additional, David, Adrian, additional, Lüders, Ulrike, additional, Mercey, Bernard, additional, Pautrat, Alain, additional, Demange, Valérie, additional, Guilloux-Viry, Maryline, additional, Prellier, Wilfrid, additional, and Fouchet, Arnaud, additional

Published
2019
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