M. Alouani
University of Strasbourg
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Publication
Featured researches published by M. Alouani.
Scientific Reports | 2013
F. Djeghloul; Fatima Ibrahim; Matteo Cantoni; M. Bowen; Loïc Joly; S. Boukari; P. Ohresser; F. Bertran; P. Le Fèvre; P. Thakur; F. Scheurer; T. Miyamachi; R. Mattana; Pierre Seneor; A. Jaafar; Christian Rinaldi; S. Javaid; J. Arabski; J.-P. Kappler; Wulf Wulfhekel; N. B. Brookes; Riccardo Bertacco; A. Taleb-Ibrahimi; M. Alouani; E. Beaurepaire; W. Weber
Organic semiconductors constitute promising candidates toward large-scale electronic circuits that are entirely spintronics-driven. Toward this goal, tunneling magnetoresistance values above 300% at low temperature suggested the presence of highly spin-polarized device interfaces. However, such spinterfaces have not been observed directly, let alone at room temperature. Thanks to experiments and theory on the model spinterface between phthalocyanine molecules and a Co single crystal surface, we clearly evidence a highly efficient spinterface. Spin-polarised direct and inverse photoemission experiments reveal a high degree of spin polarisation at room temperature at this interface. We measured a magnetic moment on the molecules nitrogen π orbitals, which substantiates an ab-initio theoretical description of highly spin-polarised charge conduction across the interface due to differing spinterface formation mechanisms in each spin channel. We propose, through this example, a recipe to engineer simple organic-inorganic interfaces with remarkable spintronic properties that can endure well above room temperature.
Nano Letters | 2012
Alexei Bagrets; S. Schmaus; Ali Jaafar; Detlef Kramczynski; Toyo Kazu Yamada; M. Alouani; Wulf Wulfhekel; Ferdinand Evers
The magnetoresistance of a hydrogen-phthalocyanine molecule placed on an antiferromagnetic Mn(001) surface and contacted by a ferromagnetic Fe electrode is investigated using density functional theory based transport calculations and low-temperature scanning tunneling microscopy. A large and negative magnetoresistance ratio of ~50% is observed in combination with a high conductance. The effect originates from a lowest unoccupied molecular orbital (LUMO) doublet placed almost in resonance with the Fermi energy. As a consequence, irrespective of the mutual alignment of magnetizations, electron transport is always dominated by resonant transmission of Mn-majority charge carries going through LUMO levels.
Journal of Chemical Physics | 2017
Manuel Gruber; Toshio Miyamachi; V. Davesne; M. Bowen; S. Boukari; Wulf Wulfhekel; M. Alouani; E. Beaurepaire
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 ...
Physical Review B | 2015
L. Zhang; A. Bagrets; D. Xenioti; Richard Korytár; Michael Schackert; Toshio Miyamachi; Frank Schramm; Olaf Fuhr; Rajadurai Chandrasekar; M. Alouani; Mario Ruben; Wulf Wulfhekel; Ferdinand Evers
We report a combined experimental and theoretical study of the Kondo effect in a series of binuclear metal-organic complexes of the form
Proceedings of SPIE | 2016
Ufuk Halisdemir; Filip Schleicher; D. J. Kim; Beata Taudul; D. Lacour; Wonseo Choi; M. Gallart; S. Boukari; Guy Schmerber; V. Davesne; P. Panissod; D. Halley; Hicham Majjad; Yves Henry; B. Leconte; A. Boulard; D. Spor; N. Beyer; C. Kieber; E. Sternitzky; O. Cregut; Marc Ziegler; F. Montaigne; J. Arabski; E. Beaurepaire; William Jo; M. Alouani; P. Gilliot; M. Hehn; M. Bowen
[{(\mathrm{Me}(\mathrm{hfacac})}_{2}{)}_{2}(\mathrm{bpym})]{}^{0}
Proceedings of SPIE | 2016
Manuel Gruber; F. Ibrahim; F. Djedhloul; Clément Barraud; G. Garreau; S. Boukari; Hironari Isshiki; L. Joly; Etienne Urbain; Moritz Peter; Michał Studniarek; V. Da Costa; Hashim Jabbar; H. Bulou; V. Davesne; Ufuk Halisdemir; Jinjie Chen; Dimitra Xenioti; J. Arabski; K. Bouzehouane; C. Deranlot; S. Fusil; Edwige Otero; Fadi Choueikani; Kai Chen; P. Ohresser; F. Bertran; P. Le Fèvre; A. Taleb-Ibrahimi; Wulf Wulfhekel
, with Me = nickel (II), manganese (II), zinc (II); hfacac = hexafluoroacetylacetonate, and bpym = bipyrimidine, adsorbed on Cu(100) surface. While Kondo features did not appear in the scanning tunneling spectroscopy spectra of nonmagnetic
Physical Review Letters | 2010
S. Javaid; M. Bowen; S. Boukari; Loïc Joly; J.-B. Beaufrand; Xi Chen; Yannick J. Dappe; F. Scheurer; J.-P. Kappler; J. Arabski; Wulf Wulfhekel; M. Alouani; E. Beaurepaire
{\mathrm{Zn}}_{2}
Nature Communications | 2014
Richard Korytár; Dimitra Xenioti; Peter Schmitteckert; M. Alouani; Ferdinand Evers
, a zero bias resonance was resolved in magnetic
Physical Review B | 2013
S. Javaid; Sébastien Lebègue; Blanka Detlefs; F. Ibrahim; F. Djeghloul; M. Bowen; S. Boukari; T. Miyamachi; J. Arabski; D. Spor; J. Zegenhagen; Wulf Wulfhekel; W. Weber; E. Beaurepaire; M. Alouani
{\mathrm{Mn}}_{2}
Physical Review B | 2012
L. Debbichi; Y. J. Dappe; M. Alouani
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