TY - BOOK AU - Chen,Szu-Chao AU - Wu,Jhao-Ying AU - Lin,Chiun-Yan AU - Lin,Ming-Fa ED - Institute of Physics (Great Britain), TI - Theory of magnetoelectric properties of 2D systems T2 - [IOP release 4] SN - 9780750316743 AV - QD341.H9 C548 2017eb U1 - 546/.681 23 PY - 2017///] CY - Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) PB - IOP Publishing KW - Graphene KW - Magnetic properties KW - Electric properties KW - Condensed matter physics (liquid state & solid state physics) KW - bicssc KW - SCIENCE / Physics / Condensed Matter KW - bisacsh N1 - "Version: 20171201"--Title page verso; Includes bibliographical references; 1. Introduction -- 2. The generalized tight-binding model -- 2.1. Monolayer graphene -- 2.2. Tetra-layer graphene -- 2.3. Tinene -- 2.4. Monolayer and bilayer phosphorenes -- 2.5. MoS2 -- 2.6. A suitable, reliable and wide-range model -- 2.7. Numerical calculations; 3. Graphene -- 3.1. Theoretical results -- 3.2. Experimental measurements -- 4. Silicene, germanene and tinene -- 5. Few-layer phosphorenes -- 6. MoS2; 7. Non-uniform magnetic fields in graphene -- 7.1. A spatially modulated magnetic field -- 7.2. A composite magnetic field with uniform and modulated components -- 8. Concluding remarks; Researchers in 2D materials; Also available in print N2 - This book addresses important advances in diverse quantization phenomena. 'Theory of Magnetoelectric Properties of 2D Systems' develops the generalized tight-binding model in order to comprehend the rich quantization phenomena in 2D materials. The unusual effects, taken into consideration simultaneously, mainly come from the multi-orbital hybridization, the spin-orbital coupling, the intralayer and interlayer atomic interactions, the layer number, the stacking configuration, the site-energy difference, the magnetic field, and the electric field. The origins of the phenomena are discussed in depth, particularly focusing on graphene, tinene, phosphorene and MoS2, with a broader model also drawn. This model could be further used to investigate electronic properties of 1D and 3D condensed-matter systems, and this book will prove to be a valuable resource to researchers and graduate students working in 2D materials science UR - https://iopscience.iop.org/book/978-0-7503-1674-3 ER -