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34 results on '"Boukari, Samy"'

1. Encoding information onto the charge and spin state of a paramagnetic atom using MgO tunnelling spintronics

Author

Lamblin, Mathieu, Chowrira, Bhavishya, Da Costa, Victor, Vileno, Bertrand, Joly, Loic, Boukari, Samy, Weber, Wolfgang, Bernard, Romain, Gobaut, Benoit, Hehn, Michel, Lacour, Daniel, and Bowen, Martin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

An electrical current that flows across individual atoms or molecules can generate exotic quantum-based behavior, from memristive effects to Coulomb blockade and the promotion of quantum excited states. These fundamental effects typically appear one at a time in model junctions built using atomic tip or lateral techniques. So far, however, a viable industrial pathway for such discrete state devices has been lacking. Here, we demonstrate that a commercialized device platform can serve as this industrial pathway for quantum technologies. We have studied magnetic tunnel junctions with a MgO barrier containing C atoms. The paramagnetic localized electrons due to individual C atoms generate parallel nanotransport paths across the micronic device as deduced from magnetotransport experiments. Coulomb blockade effects linked to tunnelling magnetoresistance peaks can be electrically controlled, leading to a persistent memory effect. Our results position MgO tunneling spintronics as a promising platform to industrially implement quantum technologies.

Published
2023

2. Toward accurate polarization estimation in nanoscopic systems

Author

Mohapatra, Sambit, Weber, Wolfgang, Bowen, Martin, Boukari, Samy, and Da Costa, Victor

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

The nanoscopic characterization of ferroelectric thin films is crucial from their device application point of view. Standard characterization techniques are based on detecting the nanoscopic charge compensation current (switching current) caused by the polarization reversal in the ferroelectric. Owing to various surface and bulk limited mechanisms, leakage currents commonly appear during such measurements, which are frequently subtracted using the device I-V characteristic by employing positive-up-negative-down (PUND) measurement scheme. By performing nanoscopic switching current measurements on a commonly used ferroelectric, BiFeO3, we show that such characterization methods may be prone to large errors in the polarization estimation on ferro-resistive samples, due to current background subtraction issues. Especially, when ferro-resistive behavior is associated with the polarization reversal of the ferroelectric thin film, background current subtraction is not accurate due to the mismatch of the I-V characteristics for the two polarization states. We show instead that removing the background current by an asymmetric least squares subtraction method, though not perfect, gives a much better estimation of the ferroelectric properties of the sample under study.

Published
2022
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3. Organic ferroelectric Croconic Acid: A concise survey from bulk single crystals to thin films

Author

Mohapatra, Sambit, Cherifi-Hertel, Salia, Kuppusamy, Senthil Kumar, Schmerber, Guy, Arabski, Jacek, Gobaut, Benoit, Weber, Wolfgang, Bowen, Martin, Da Costa, Victor, and Boukari, Samy

Subjects
Condensed Matter - Materials Science
Abstract

Owing to prospective energy-efficient and environmentally benign applications, organic ferroelectric materials are useful and necessary alternative to inorganic ferroelectrics. Although the first discovered ferroelectric, Rochelle salt, was a salt of an organic compound, organic ferroelectrics have not been as abundant as the inorganic ones. Further, the small polarization values in the organic systems discovered so far have been a demotivating factor for their applications. However, scientific interest and activities surrounding such materials, for the purpose of fundamental understanding and practical applications, have significantly risen lately, especially after the discovery of above-room-temperature ferroelectricity in croconic acid (4,5-dihydroxy-4-cyclopentene-1,2,3-trione, H2C5O5) crystals with polarization values rivalling those found in inorganic ferroelectrics. Its large polarization, organic nature, and vacuum sublimability make croconic acid an ideal candidate for non-toxic and lead-free device applications. In this review article, we survey the scientific activities carried out so far involving ferroelectricity in this novel material, paying equal attention to its bulk single crystal and thin film forms. While we discuss about the origin of ferroelectric order and the reversal of polarization in the bulk form, we also summarize the directions toward applications of the thin films.

Published
2021

4. Nanoscale reversal of stable room temperature ferroelectric polarization in organic croconic acid thin films

Author

Mohapatra, Sambit, Beaurepaire, Eric, Weber, Wolfgang, Bowen, Martin, Boukari, Samy, and Da Costa, Victor

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

It was discovered in 2010 that Croconic Acid, in its crystal form, has the highest polarization among organic ferroelectrics. In the context of eliminating toxic substances from electronic devices, Croconic Acid has a great potential as a sublimable lead-free ferroelectric. However, studies on ferroelectric properties of its thin films are only in their early stages and its capability to be incorporated in nanoscale devices is unknown. In this work, we demonstrate, upon ferroelectric switching at the nanoscale, stable and enduring room temperature polarization with no leakage current in Croconic Acid thin films. We thus show that it is a promising lead-free organic ferroelectric toward integration in nanoscale devices. The challenging switching current and polarization reversal characterization at the nanoscale was done using a unique combination of piezoresponse force microscopy, polarization switching current spectroscopy and the concurrent electromechanical strain response. Indeed, this combination can help to rationalize otherwise asymmetric polarization-voltage data and distorted hysteresis due to current jumps below the background noise, which are statistically washed away in macrojunctions but become prevalent at the nanoscale. These results are valid irrespective of the ferroelectrics' nature, organic or inorganic. Beyond the potential of Croconic Acid as an ecological ferroelectric material in devices, our detection of a clear nanoscopic polarization switching current thus paves the way for a fundamental understanding and technological applications of the polarization reversal mechanism at the nanoscale.

Published
2021

5. Quantum advantage in a molecular spintronic engine that harvests thermal fluctuation energy

Author

Chowrira, Bhavishya, Kandpal, Lalit, Lamblin, Mathieu, Ngassam, Franck, Kouakou, Charles-Ambroise, Zafar, Talha, Mertz, Damien, Vileno, Bertrand, Kieber, Christophe, Versini, Gilles, Gobaut, Benoit, Joly, Loic, Ferte, Tom, Monteblanco, Elmer, Bahouka, Armel, Bernard, Romain, Mohapatra, Sambit, Garcia, H. Prima, Elidrissi, S., Gavara, M., Sternitzky, Emmanuel, Da Costa, Victor, Hehn, Michel, Montaigne, Francois, Choueikani, Fadi, Ohresser, Philippe, Lacour, Daniel, Weber, Wolfgang, Boukari, Samy, Alouani, Mebarek, and Bowen, Martin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Recent theory and experiments have showcased how to harness quantum mechanics to assemble heat/information engines with efficiencies that surpass the classical Carnot limit. So far, this has required atomic engines that are driven by cumbersome external electromagnetic sources. Here, using molecular spintronics, we propose an implementation that is both electronic and autonomous. Our spintronic quantum engine heuristically deploys several known quantum assets by having a chain of spin qubits formed by the paramagnetic Co centers of phthalocyanine (Pc) molecules electronically interact with electron-spin selecting Fe/C60 interfaces. Density functional calculations reveal that transport fluctuations across the interface can stabilize spin coherence on the Co paramagnetic centers, which host spin flip processes. Across vertical molecular nanodevices, we measure enduring dc current generation, output power above room temperature, two quantum thermodynamical signatures of the engine's processes, and a record 89% spin polarization of current across the Fe/C60 interface. It is crucially this electron spin selection that forces, through demonic feedback and control, charge current to flow against the built-in potential barrier. Further research into spintronic quantum engines, insight into the quantum information processes within spintronic technologies, and retooling the spintronic-based information technology chain, could help accelerate the transition to clean energy., Comment: \

Published
2020
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6. Robust ferroelectric properties of organic Croconic Acid films grown on spintronically relevant substrates

Author

Mohapatra, Sambit, Da Costa, Victor, Avedissian, Garen, Arabski, Jacek, Weber, Wolfgang, Bowen, Martin, and Boukari, Samy

Subjects
Condensed Matter - Materials Science
Abstract

The discovery of stable room temperature ferroelectricity in Croconic Acid, an organic ferroelectric material, with polarization values on par with those found in inorganic ferroelectric materials and highest among organic ferroelectric materials, has opened up possibilities to realize myriads of nano-electronic and spintronic devices based on organic ferroelectrics. Such possibilities require an adequate understanding of the ferroelectric properties of Croconic Acid grown on surfaces that are commonly employed in device fabrication. While several macroscopic studies on relatively larger crystals of Croconic Acid have been performed, studies on thin films are only in their early stages. We have grown thin films of Croconic Acid on gold and cobalt surfaces, which are commonly used in spintronic devices as metallic electrodes, and studied the ferroelectric response of the films using ex-situ Piezoresponse Force Microscopy at room temperature. We show that the polarization reversal in Croconic Acid domains is sensitive to the substrate surface. Using the same experimental protocol, we observe the robust polarization reversal of a single, mostly in-plane electrical domain for a cobalt substrate, whereas polarization reversal is hardly observed for a gold substrate. We attribute this difference to the influence of substrates on the Croconic Acid molecular networks. Our study suggests that to realize devices one has to take care about the substrate on which Croconic Acid will be deposited. The fact that polarization switching is robust on cobalt surface can be used to fabricate multifunctional devices that utilize the cobalt-Croconic Acid interface., Comment: 21 pages, 14 figures

Published
2020

7. Linking electronic transport through a spin crossover thin film to the molecular spin state using X-ray absorption spectroscopy operando techniques

Author

Schleicher, Filip, Studniarek, Michał, Kumar, Kuppusamy Senthil, Urbain, Etienne, Katcko, Kostantine, Chen, Jinjie, Frauhammer, Timo, Hervé, Marie, Halisdemir, Ufuk, Kandpal, Lalit Mohan, Lacour, Daniel, Riminucci, Alberto, Joly, Loic, Scheurer, Fabrice, Gobaut, Benoit, Choueikani, Fadi, Otero, Edwige, Ohresser, Philippe, Arabski, Jacek, Schmerber, Guy, Wulfhekel, Wulf, Beaurepaire, Eric, Weber, Wolfgang, Boukari, Samy, Ruben, Mario, and Bowen, Martin

Subjects
Physics - Applied Physics
Abstract

One promising route toward encoding information is to utilize the two stable electronic states of a spin crossover molecule. However, while this property is clearly manifested in transport across single molecule junctions, evidence linking charge transport across a solid-state device to the molecular film's spin state has thus far remained indirect. To establish this link, we deploy materials-centric and device-centric operando experiments involving X-ray absorption spectroscopy. We find a correlation between the temperature dependencies of the junction resistance and the Fe spin state within the device's Fe(bpz)2(phen) molecular film. We also factually observe that the Fe molecular site mediates charge transport. Our dual operando studies reveal that transport involves a subset of molecules within an electronically heterogeneous spin crossover film. Our work confers an insight that substantially improves the state-of-the-art regarding spin crossover-based devices, thanks to a methodology that can benefit device studies of other next-generation molecular compounds., Comment: Typo in the first name of one of the authors updated (Jinje -> Jinjie)

Published
2018

8. Engineering on-surface spin crossover: spin-state switching in a self-assembled film of vacuum sublimable functional molecule

Author

Kumar, Kuppusamy Senthil, Studniarek, Michał, Heinrich, Benoît, Arabski, Jacek, Schmerber, Guy, Bowen, Martin, Boukari, Samy, Beaurepaire, Eric, Dreiser, Jan, and Ruben, Mario

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Realization of spin crossover (SCO) based applications requires studying of spin state switching characteristics of SCO complex molecules at nanostructured environments especially on-surface. Except for a very few cases, the SCO of a surface bound thin molecular film is either quenched or heavily altered due to (i) strong molecule-surface interactions and (ii) differing intermolecular interactions in films relative to the bulk. By fabricating SCO complexes on a weakly interacting surface such as highly oriented pyrolytic graphite (HOPG) and copper nitride (CuN), the interfacial quenching problem has been tackled. However, engineering intermolecular interactions in thin SCO active films is rather difficult. This work proposes a molecular self-assembly strategy to fabricate thin spin switchable surface bound films with programmable intermolecular interactions. Molecular engineering of the parent complex system [Fe(H$_{2}$B(pz)$_{2}$)$_{2}$(bpy)] (pz = pyrazole, bpy = 2,2'-bipyridine) with a dodecyl (C$_{12}$) alkyl chain yielded a classical amphiphile-like functional and vacuum sublimable charge neutral Fe$^{\rm II}$ complex, [Fe(H$_{2}$B(pz)$_{2}$)$_{2}$(C$_{12}$-bpy)] (C$_{12}$-bpy = dodecyl[2,2'-bipyridine]-5-carboxylate). The bulk powder and 10 nm thin film, on quartz glass/SiO$_{\rm x}$ surface, of the complex showed comparable spin state switching characteristics mediated by similar lamellar bilayer like self-assembly/molecular interactions in both bulk and thin film states. This unprecedented observation augurs well for the development of SCO based applications, especially in molecular spintronics.

Published
2018

9. Disentangling magnetic hardening and molecular spin chain contributions to exchange bias in ferromagnet/molecule bilayers

Author

Boukari, Samy, Jabbar, Hashim, Schleicher, Filip, Gruber, Manuel, Arabski, Jacek, Da Costa, Victor, Schmerber, Guy, Rengasamy, Prashanth, Vileno, Bertrand, Weber, Wolfgang, Bowen, Martin, and Beaurepaire, Eric

Subjects
Condensed Matter - Materials Science
Abstract

We performed SQUID and FMR magnetometry experiments to clarify the relationship between two reported magnetic exchange effects arising from interfacial spin-polarized charge transfer within ferromagnetic metal (FM)/molecule bilayers: the magnetic hardening effect, and spinterface-stabilized molecular spin chains. To disentangle these effects, both of which can affect the FM magnetization reversal, we tuned the metal phthalocyanine molecule central site's magnetic moment to selectively enhance or suppress the formation of spin chains within the molecular film. We find that both effects are distinct, and additive. In the process, we 1) extended the list of FM/molecule candidate pairs that are known to generate magnetic exchange effects, 2) experimentally confirmed the predicted increase in anisotropy upon molecular adsorption; and 3) showed that spin chains within the molecular film can enhance magnetic exchange. This magnetic ordering within the organic layer implies a structural ordering. Thus, by distengangling the magnetic hardening and exchange bias contributions, our results confirm, as an echo to progress regarding inorganic spintronic tunnelling, that the milestone of spintronic tunnelling across structurally ordered organic barriers has been reached through previous magnetotransport experiments. This paves the way for solid-state devices studies that exploit the quantum physical properties of spin chains, notably through external stimuli., Comment: None

Published
2017
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10. Toward accurate ferroelectric polarization estimation in nanoscopic systems.

Author

Mohapatra, Sambit, Weber, Wolfgang, Bowen, Martin, Boukari, Samy, and Da Costa, Victor

Subjects
STRAY currents, FERROELECTRIC thin films, PHOTOVOLTAIC effect
Abstract

The nanoscopic characterization of ferroelectric thin films is crucial from their device application point of view. Standard characterization techniques are based on detecting the nanoscopic charge compensation current (switching current) caused by the polarization reversal in the ferroelectric. Owing to various surface and bulk limited mechanisms, leakage currents commonly appear during such measurements, which are frequently subtracted using the device I–V characteristic by employing a positive-up-negative-down measurement scheme. By performing nanoscopic switching current measurements on a commonly used ferroelectric, BiFeO3, we show that such characterization methods may be prone to large errors in polarization estimation on ferro-resistive samples due to current background subtraction issues. Specifically, when the resistance of the ferroelectric thin film is associated with polarization reversal, background current subtraction is not accurate due to the mismatch of the I–V characteristics for two polarization states. We show instead that removing the background current by an asymmetric least-squares subtraction method, though not perfect, gives a much better estimation of the ferroelectric properties of the sample under study. [ABSTRACT FROM AUTHOR]

Published
2022
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11. Polarization Vector Canting in Croconic Acid Ferroelectric Nanoscopic Regions.

Author

Mohapatra, Sambit, Weber, Wolfgang, Gobaut, Benoit, Bowen, Martin, Boukari, Samy, and Da Costa, Victor

Subjects
BARIUM titanate, PHOTOVOLTAIC effect, POLARIZATION spectroscopy, MAGNETOELECTRIC effect, INTERFACE structures, PIEZORESPONSE force microscopy, THIN films
Abstract

Croconic acid is reported to be the organic ferroelectric with the highest above‐room‐temperature saturation polarization in its crystal form, at a value on par with that of commonly used inorganic ferroelectrics. Owing to its organic nature, high polarization value, and small coercive field, Croconic acid is considered as a potential candidate in energy‐efficient and environmentally benign composite multiferroic heterostructures. However, understanding the magnetoelectric mechanism at the ferroelectric/ferromagnetic interface in these structures requires a detailed understanding of the orientation of the polarization vector in its thin film form. To maximize the magnetoelectric effect, the polarization vector should point out of the film plane, yet the polarization in ultra‐thin Croconic acid films is predicted to lie in the film plane. Nevertheless, polycrystalline films show some promise in this direction. In this article, by combining in situ piezoreponse force microscopy imaging with nanoscopic polarization reversal spectroscopy, the authors qualitatively analyze the polarization switching and its orientation in polycrystalline Croconic acid films and show that it is canted with respect to the film plane, with a component along the out‐of‐plane direction. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Quantum Advantage in a Molecular Spintronic Engine that Harvests Thermal Fluctuation Energy

Author

Chowrira, Bhavishya, primary, Kandpal, Lalit, additional, Lamblin, Mathieu, additional, Ngassam, Franck, additional, Kouakou, Charles‐Ambroise, additional, Zafar, Talha, additional, Mertz, Damien, additional, Vileno, Bertrand, additional, Kieber, Christophe, additional, Versini, Gilles, additional, Gobaut, Benoit, additional, Joly, Loïc, additional, Ferté, Tom, additional, Monteblanco, Elmer, additional, Bahouka, Armel, additional, Bernard, Romain, additional, Mohapatra, Sambit, additional, Prima Garcia, Helena, additional, Elidrissi, Safaa, additional, Gavara, Miguel, additional, Sternitzky, Emmanuel, additional, Da Costa, Victor, additional, Hehn, Michel, additional, Montaigne, François, additional, Choueikani, Fadi, additional, Ohresser, Philippe, additional, Lacour, Daniel, additional, Weber, Wolfgang, additional, Boukari, Samy, additional, Alouani, Mebarek, additional, and Bowen, Martin, additional

Published
2022
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14. A influência do laser Er:YAG no tratamento não cirúrgico da doença periodontal

Author

Boukari, Samy larbi and VINHAS, ANA SOFIA DE ABREU FERNANDES

Subjects
Periodontal Disease, Periodontal pocket, Scaling and Root Planning, Laser Erbium
Abstract

Desde a divulgação do laser de rubi em 1960, os lasers têm sido utilizados em diversos campos da medicina, e o seu uso na medicina dentária foi introduzido em 1964. Hoje, vários sistemas a laser são discutidos para possível uso na medicina dentária. Desde então, o laser desenvolveu-se para diferentes funções no ambiente odontológico: cuidados conservadores, endodontia, cirurgia oral ... A extensão das aplicações desta nova ferramenta inclui naturalmente a área da periodontologia. Os lasers Nd: YAG (dopados com neodímio: ítrio, alumínio e granada) e o CO2 (dióxido de carbono) são de interesse limitados devido aos seus efeitos colaterais térmicos, enquanto os lasers Er: YAG (dopados com érbio: ítrio, alumínio e granada) tornam-se cada vez mais populares no tratamento não cirúrgico da periodontite crónica. Um dos principais objetivos no tratamento da periodontite é a eliminação de depósitos bacterianos e a interrupção da progressão da doença. Para atingir esse objetivo, é necessário a remoção completa da placa aderida, tártaro e cemento infetado, embora a remoção completa seja difícil. O objetivo desta revisão integrativa é avaliar e comparar eficácia clínica do laser Er: YAG na raspagem e alisamento radicular e descontaminação de bolsas periodontais, relativamente ao tratamento mecânico convencional não cirúrgico de raspagem e alisamento radicular.

Published
2020

15. Encoding Information on the Excited State of a Molecular Spin Chain

Author

Katcko, Kostantine, primary, Urbain, Etienne, additional, Ngassam, Franck, additional, Kandpal, Lalit, additional, Chowrira, Bhavishya, additional, Schleicher, Filip, additional, Halisdemir, Ufuk, additional, Wang, Di, additional, Scherer, Torsten, additional, Mertz, Damien, additional, Leconte, Benoit, additional, Beyer, Nicolas, additional, Spor, Daniel, additional, Panissod, Pierre, additional, Boulard, Arnaud, additional, Arabski, Jacek, additional, Kieber, Christophe, additional, Sternitzky, Emmanuel, additional, Da Costa, Victor, additional, Hehn, Michel, additional, Montaigne, François, additional, Bahouka, Armel, additional, Weber, Wolfgang, additional, Beaurepaire, Eric, additional, Kübel, Christian, additional, Lacour, Daniel, additional, Alouani, Mébarek, additional, Boukari, Samy, additional, and Bowen, Martin, additional

Published
2021
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17. Spin crossover in Fe(phen)2(NCS)2 complexes on metallic surfaces.

Author

Gruber, Manuel, Toshio Miyamachi, Davesne, Vincent, Bowen, Martin, Boukari, Samy, Wulfhekel, Wulf, Alouani, Mebarek, and Beaurepaire, Eric

Subjects
METALLIC surfaces, ADSORPTION (Chemistry), ELECTRON spin, SCANNING tunneling microscopy, MAGNETIZATION
Abstract

In this review, we give an overview on the spin crossover of Fe(phen)2(NCS)2 complexes adsorbed on Cu(100), Cu2N/Cu(100), Cu(111), Co/Cu(111), Co(100), Au(100), and Au(111) surfaces. Depending on the strength of the interaction of the molecules with the substrates, the spin crossover behavior can be drastically changed. Molecules in direct contact with non-magnetic metallic surfaces coexist in both the high- and low-spin states but cannot be switched between the two. Our analysis shows that this is due to a strong interaction with the substrate in the form of a chemisorption that dictates the spin state of the molecules through its adsorption geometry. Upon reducing the interaction to the surface either by adding a second molecular layer or inserting an insulating thin film of Cu2N, the spin crossover behavior is restored and molecules can be switched between the two states with the help of scanning tunneling microscopy. Especially on Cu2N, the two states of single molecules are stable at low temperature and thus allow the realization of a molecular memory. Similarly, the molecules decoupled from metallic substrates in the second or higher layers display thermally driven spin crossover as has been revealed by X-ray absorption spectroscopy. Finally, we discuss the situation when the complex is brought into contact with a ferromagnetic substrate. This leads to a strong exchange coupling between the Fe spin in the high-spin state and the magnetization of the substrate as deduced from spin-polarized scanning tunneling spectroscopy and ab initio calculation. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Linking Electronic Transport through a Spin Crossover Thin Film to the Molecular Spin State Using X-ray Absorption Spectroscopy Operando Techniques

Author

Schleicher, Filip, primary, Studniarek, Michał, additional, Kumar, Kuppusamy Senthil, additional, Urbain, Etienne, additional, Katcko, Kostantine, additional, Chen, Jinjie, additional, Frauhammer, Timo, additional, Hervé, Marie, additional, Halisdemir, Ufuk, additional, Kandpal, Lalit Mohan, additional, Lacour, Daniel, additional, Riminucci, Alberto, additional, Joly, Loic, additional, Scheurer, Fabrice, additional, Gobaut, Benoit, additional, Choueikani, Fadi, additional, Otero, Edwige, additional, Ohresser, Philippe, additional, Arabski, Jacek, additional, Schmerber, Guy, additional, Wulfhekel, Wulf, additional, Beaurepaire, Eric, additional, Weber, Wolfgang, additional, Boukari, Samy, additional, Ruben, Mario, additional, and Bowen, Martin, additional

Published
2018
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21. Disentangling Magnetic Hardening and Molecular Spin Chain Contributions to Exchange Bias in Ferromagnet/Molecule Bilayers

Author

Boukari, Samy, primary, Jabbar, Hashim, additional, Schleicher, Filip, additional, Gruber, Manuel, additional, Avedissian, Garen, additional, Arabski, Jacek, additional, Da Costa, Victor, additional, Schmerber, Guy, additional, Rengasamy, Prashanth, additional, Vileno, Bertrand, additional, Weber, Wolfgang, additional, Bowen, Martin, additional, and Beaurepaire, Eric, additional

Published
2018
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24. Modulating the Ferromagnet/Molecule Spin Hybridization Using an Artificial Magnetoelectric

Author

Studniarek, Michał, primary, Cherifi‐Hertel, Salia, additional, Urbain, Etienne, additional, Halisdemir, Ufuk, additional, Arras, Rémi, additional, Taudul, Beata, additional, Schleicher, Filip, additional, Hervé, Marie, additional, Lambert, Charles‐Henri, additional, Hamadeh, Abbass, additional, Joly, Loïc, additional, Scheurer, Fabrice, additional, Schmerber, Guy, additional, Da Costa, Victor, additional, Warot‐Fonrose, Bénédicte, additional, Marcelot, Cécile, additional, Mauguin, Olivia, additional, Largeau, Ludovic, additional, Leduc, Florian, additional, Choueikani, Fadi, additional, Otero, Edwige, additional, Wulfhekel, Wulf, additional, Arabski, Jacek, additional, Ohresser, Philippe, additional, Weber, Wolfgang, additional, Beaurepaire, Eric, additional, Boukari, Samy, additional, and Bowen, Martin, additional

Published
2017
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25. Tunneling Spintronics across MgO Driven by Double Oxygen Vacancies

Author

Taudul, Beata, primary, Monteblanco, Elmer Nahuel, additional, Halisdemir, Ufuk, additional, Lacour, Daniel, additional, Schleicher, Filip, additional, Montaigne, François, additional, Beaurepaire, Eric, additional, Boukari, Samy, additional, Hehn, Michel, additional, Alouani, Mébarek, additional, and Bowen, Martin, additional

Published
2017
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26. Probing a Device's Active Atoms

Author

Studniarek, Michał, primary, Halisdemir, Ufuk, additional, Schleicher, Filip, additional, Taudul, Beata, additional, Urbain, Etienne, additional, Boukari, Samy, additional, Hervé, Marie, additional, Lambert, Charles‐Henri, additional, Hamadeh, Abbass, additional, Petit‐Watelot, Sebastien, additional, Zill, Olivia, additional, Lacour, Daniel, additional, Joly, Loïc, additional, Scheurer, Fabrice, additional, Schmerber, Guy, additional, Da Costa, Victor, additional, Dixit, Anant, additional, Guitard, Pierre André, additional, Acosta, Manuel, additional, Leduc, Florian, additional, Choueikani, Fadi, additional, Otero, Edwige, additional, Wulfhekel, Wulf, additional, Montaigne, François, additional, Monteblanco, Elmer Nahuel, additional, Arabski, Jacek, additional, Ohresser, Philippe, additional, Beaurepaire, Eric, additional, Weber, Wolfgang, additional, Alouani, Mébarek, additional, Hehn, Michel, additional, and Bowen, Martin, additional

Published
2017
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28. High Spin Polarization at Ferromagnetic Metal–Organic Interfaces: A Generic Property

Author

Djeghloul, Fatima, primary, Gruber, Manuel, additional, Urbain, Etienne, additional, Xenioti, Dimitra, additional, Joly, Loic, additional, Boukari, Samy, additional, Arabski, Jacek, additional, Bulou, Hervé, additional, Scheurer, Fabrice, additional, Bertran, François, additional, Le Fèvre, Patrick, additional, Taleb-Ibrahimi, Amina, additional, Wulfhekel, Wulf, additional, Garreau, Guillaume, additional, Hajjar-Garreau, Samar, additional, Wetzel, Patrick, additional, Alouani, Mebarek, additional, Beaurepaire, Eric, additional, Bowen, Martin, additional, and Weber, Wolfgang, additional

Published
2016
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29. Spin-Dependent Hybridization between Molecule and Metal at Room Temperature through Interlayer Exchange Coupling

Author

Gruber, Manuel, primary, Ibrahim, Fatima, additional, Boukari, Samy, additional, Joly, Loïc, additional, Da Costa, Victor, additional, Studniarek, Michał, additional, Peter, Moritz, additional, Isshiki, Hironari, additional, Jabbar, Hashim, additional, Davesne, Vincent, additional, Arabski, Jacek, additional, Otero, Edwige, additional, Choueikani, Fadi, additional, Chen, Kai, additional, Ohresser, Philippe, additional, Wulfhekel, Wulf, additional, Scheurer, Fabrice, additional, Beaurepaire, Eric, additional, Alouani, Mebarek, additional, Weber, Wolfgang, additional, and Bowen, Martin, additional

Published
2015
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30. Exchange bias and room-temperature magnetic order in molecular layers

Author

Gruber, Manuel, primary, Ibrahim, Fatima, additional, Boukari, Samy, additional, Isshiki, Hironari, additional, Joly, Loïc, additional, Peter, Moritz, additional, Studniarek, Michał, additional, Da Costa, Victor, additional, Jabbar, Hashim, additional, Davesne, Vincent, additional, Halisdemir, Ufuk, additional, Chen, Jinjie, additional, Arabski, Jacek, additional, Otero, Edwige, additional, Choueikani, Fadi, additional, Chen, Kai, additional, Ohresser, Philippe, additional, Wulfhekel, Wulf, additional, Scheurer, Fabrice, additional, Weber, Wolfgang, additional, Alouani, Mebarek, additional, Beaurepaire, Eric, additional, and Bowen, Martin, additional

Published
2015
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31. Unidirectional Spin-Dependent Molecule-Ferromagnet Hybridized States Anisotropy in Cobalt Phthalocyanine Based Magnetic Tunnel Junctions

Author

Barraud, Clément, primary, Bouzehouane, Karim, additional, Deranlot, Cyrile, additional, Fusil, Stéphane, additional, Jabbar, Hashim, additional, Arabski, Jacek, additional, Rakshit, Rajib, additional, Kim, Dong-Jik, additional, Kieber, Christophe, additional, Boukari, Samy, additional, Bowen, Martin, additional, Beaurepaire, Eric, additional, Seneor, Pierre, additional, Mattana, Richard, additional, and Petroff, Frédéric, additional

Published
2015
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33. Robust spin crossover and memristance across a single molecule

Author

Miyamachi, Toshio, primary, Gruber, Manuel, additional, Davesne, Vincent, additional, Bowen, Martin, additional, Boukari, Samy, additional, Joly, Loïc, additional, Scheurer, Fabrice, additional, Rogez, Guillaume, additional, Yamada, Toyo Kazu, additional, Ohresser, Philippe, additional, Beaurepaire, Eric, additional, and Wulfhekel, Wulf, additional

Published
2012
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