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Spintronic 2D Materials
Fundamentals and Applications
In-depth overview of spintronics and the most promising 2D materials for device realization, including graphene, topological insulators, and transition metal dichalcogenides
Wenqing Liu (Edited by), Yongbing Xu (Edited by)
9780081021545, Elsevier Science
Paperback / softback, published 4 December 2019
320 pages
23.4 x 19 x 2.1 cm, 0.3 kg
Spintronic 2D Materials: Fundamentals and Applications provides an overview of the fundamental theory of 2D electronic systems that includes a selection of the most intensively investigated 2D materials. The book tells the story of 2D spintronics in a systematic and comprehensive way, providing the growing community of spintronics researchers with a key reference. Part One addresses the fundamental theoretical aspects of 2D materials and spin transport, while Parts Two through Four explore 2D material systems, including graphene, topological insulators, and transition metal dichalcogenides. Each section discusses properties, key issues and recent developments. In addition, the material growth method (from lab to mass production), device fabrication and characterization techniques are included throughout the book.
1: Introduction to spintronics and 2D materials 2: Rashba spin-orbit coupling in two-dimensional systems 3: Two-dimensional ferrovalley materials 4: Ferromagnetism in two-dimensional materials via doping and defect engineering 5: Charge-spin conversion in 2D systems 6: Magnetic properties of graphene 7: Experimental observation of low-dimensional magnetism in graphene nanostructures 8: Magnetic topological insulators: growth, structure, and properties 9: Growth and properties of magnetic two-dimensional transition-metal chalcogenides 10: Spin-valve effect of 2D-materials based magnetic junctions 11: Layered topological semimetals for spintronics Index
Subject Areas: Electronics & communications engineering [TJ], Materials science [TGM]
