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Graphene-nickel interfaces quantumwise
Graphene-nickel interfaces quantumwise












graphene-nickel interfaces quantumwise

This is illustrated in fast and ultra-low-power nonvolatile devices such as the new spin-transfer-torque magnetic

graphene-nickel interfaces quantumwise

Spintronics is a paradigm focusing on spin as the information vector. (Some figures may appear in colour only in the online journal) Keywords: 2D materials, graphene, spintronics, magnetic tunnel junctions, h-BN, TMDC, spin valve Many perspectives are thus being opened up in the exploration of the vast amount of 2D material families and their association in heterostructures, targeting specific spin device properties. Interestingly, these recent experiments have already highlighted some novel properties that emanate from 2D-based heterostructures, such as passivation against oxidation diffusion and augmented spin filtering at the interface. A complete overview of the state of the art is presented, and the different integrative pathways of 2D materials with ferromagnets are addressed, including the exfoliation of 2D flakes from crystals, the wet transfer steps of large scale layers, and direct chemical vapour deposition (CVD) growths catalysed on ferromagnetic electrodes. This could become a critical asset for spintronics with regard to the fabrication of spin valves, where ultra-thin layers with extreme control are targeted, especially for spin-polarized electron tunnelling. The main remarkable characteristic of 2D materials is the ability to gain high homogeneous atomic control over their thickness, as this is barely achievable with the usual 3D materials deposited through conventional physical vapour deposition (PVD) growth techniques. This review focuses on the recent experimental integration of 2D materials, mostly graphene but also h-BN and dichalochogenides, such as MoS2 and WS2, in magnetic tunnel junctions. Paris-Sud, Université Paris-Saclay, Palaiseau 91767, FranceĮ-mail: and, revised 13 February 2017 Accepted for publication 7 March 2017 Published 26 April 2017 Unité Mixte de Physique, CNRS, Thaïes, Univ. Maëlis Piquemal-Banci, Regina Galceran, Marie-Blandine Martin, Florian Godel, Abdelmadjid Anane, Frederic Petroff, Bruno Dlubak and Pierre Seneor IOP Publishing Journal of Physics D: Applied Physics Pulsed laser deposition of La1-xSrxMnO3: thin-film properties and spintronic applications Sayani Majumdar and Sebastiaan van DijkenĬMOS-compatible spintronic devices: a reviewĪlexander Makarov, Thomas Windbacher, Viktor Sverdlov et al.įrom epitaxial growth of ferrite thin films to spin-polarized tunnelling Jean-Baptiste Moussy Guoqing Zhou, Guoqiang Tang, Tian Li et al.Įlectrical spin injection and detection in high mobility 2DEG systems M CiorgaĢD Materials Advances: From Large Scale Synthesis and Controlled Heterostructures to Improved Characterization Techniques, Defects and Applications Zhong Lin, Amber McCreary, Natalie Briggs et al. Graphene-passivated cobalt as a spin-polarized electrode: growth and application to organic spintronics This content was downloaded on at 12:34 Please note that terms and conditions apply.įuture perspectives for spintronic devices Atsufumi Hirohata and Koki Takanashi

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View the table of contents for this issue, or go to the journal homepage for more Download details: IP Address: 80.82.77.83 This content has been downloaded from IOPscience. Home Search Collections Journals About Contact us My IOPscienceĢD-MTJs: introducing 2D materials in magnetic tunnel junctions














Graphene-nickel interfaces quantumwise