|
Showing 1 - 4 of
4 matches in All Departments
This monograph offers a comprehensive overview of diverse
quantization phenomena in layered materials, covering current
mainstream experimental and theoretical research studies, and
presenting essential properties of layered materials along with a
wealth of figures. This book illustrates commonly used synthesis
methods of these 2D materials and compares the calculated results
and experimental measurements, including novel features not yet
reported. The book also discusses experimental measurements of
magnetic quantization, theoretical modeling for studying systems
and covers diversified magneto-electronic properties,
magneto-optical selection rules, unusual quantum Hall
conductivities, and single- and many-particle magneto-Coulomb
excitations. Rich and unique behaviors are clearly revealed in
few-layer graphene systems with distinct stacking configuration,
stacking-modulated structures, silicon-doped lattices, bilayer
silicene/germanene systems with the bottom-top and bottom-bottom
buckling structures, monolayer and bilayer phosphorene systems, and
quantum topological insulators. The generalized tight-binding
model, the static and dynamic Kubo formulas, and the random-phase
approximation are developed/modified to thoroughly explore the
fundamental properties and propose the concise physical pictures.
Different high-resolution experimental measurements are discussed
in detail, and they are consistent with the theoretical
predictions. Aimed at readers working in materials science,
physics, and engineering this book should be useful for potential
applications in energy storage, electronic devices, and
optoelectronic devices.
Coulomb Excitations and Decays in Graphene-Related Systems provides
an overview of the subject under the effects of lattice symmetries,
layer numbers, dimensions, stacking configurations, orbital
hybridizations, intralayer and interlayer hopping integrals,
spin-orbital couplings, temperatures, electron/hole dopings,
electric field, and magnetic quantization while presenting a new
theoretical framework of the electronic properties and the
electron-electron interactions together. This book presents a
well-developed theoretical model and addresses important advances
in essential properties and diverse excitation phenomena. Covering
plenty of critical factors related to the field, the book also
addresses the theoretical model which is applicable to various
dimension-enriched graphene-related systems and other 2D materials,
including layered graphenes, graphites, carbon nanotubes, silicene,
and germanene. The text is aimed at professionals in materials
science, physics, physical chemistry, and upper level students in
these fields.
Coulomb Excitations and Decays in Graphene-Related Systems provides
an overview of the subject under the effects of lattice symmetries,
layer numbers, dimensions, stacking configurations, orbital
hybridizations, intralayer and interlayer hopping integrals,
spin-orbital couplings, temperatures, electron/hole dopings,
electric field, and magnetic quantization while presenting a new
theoretical framework of the electronic properties and the
electron-electron interactions together. This book presents a
well-developed theoretical model and addresses important advances
in essential properties and diverse excitation phenomena. Covering
plenty of critical factors related to the field, the book also
addresses the theoretical model which is applicable to various
dimension-enriched graphene-related systems and other 2D materials,
including layered graphenes, graphites, carbon nanotubes, silicene,
and germanene. The text is aimed at professionals in materials
science, physics, physical chemistry, and upper level students in
these fields.
|
You may like...
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
Loot
Nadine Gordimer
Paperback
(2)
R398
R330
Discovery Miles 3 300
|