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Raman Spectroscopy in Graphene Related Systems
Raman spectroscopy is the inelastic scattering of light by matter. Being highly sensitive to the physical and chemical properties of materials, as well as to environmental effects that change these properties, Raman spectroscopy is now evolving into one of the most important tools for nanoscience and nanotechnology. In contrast to usual microscopyrelated techniques, the advantages of using light for nanoscience relate to both experimental and fundamental aspects.
Quantum ESPRESSO Course for Solid-State Physics
This book is a hands-on tutorial for using Quantum ESPRESSO, which is an open software of first-principles calculation for the electronic structure of materials. When we design a new material, the electronic-structure calculation is essential to discuss the origin of the physical properties of the material. Nowadays, many researchers can run Quantum ESPRESSO on personal computers without paying any cost of the software. The book covers one-by-one the basic concepts for learning solid-state physics, including: geometry optimization, energy band dispersion, phonons, superconductivity, optical properties, and many others. It describes how to install, run, and understand the results of Quantum ESPRESSO. The book also covers some fundamental aspects of density-functional theory and solid-state physics.
Introduction to Graphene-Based Nanomaterials
An introduction to the electrical and transport properties of graphene and other two-dimensional nanomaterials.
Physics of High-Temperature Superconductors
Advances through carefully conducted quantitative work on well designed, high quality materials characterize the present state of high-temperature superconductivity research. The contributions to this volume present a theoretical and experimental overview of electronic structure and physical properties, including anisotropic features, of high-temperative materials, with a focus on cuprates. In order to enhance the understanding of the mechanisms of superconductivity at high temperatures, this volume is divided into theoretical and experimental parts. The contributions to the two parts correspond to each other, giving readers involved in either area of research activity a reference to findingsof the other. On the other hand, this book gives young physicists high-level information on the present state of research, enhanced by tutorial contributions of leading physicists in the field.
Physical Properties Of Carbon Nanotubes
This is an introductory textbook for graduate students and researchers from various fields of science who wish to learn about carbon nanotubes. The field is still at an early stage, and progress continues at a rapid rate. This book focuses on the basic principles behind the physical properties and gives the background necessary to understand the recent developments. Some useful computational source codes which generate coordinates for carbon nanotubes are also included in the appendix.
Handbook Of Carbon Nanomaterials (Volumes 9-10)
This volume is a tribute to the career of Prof. Mildred Dresselhaus. It focuses on the optical properties and spectroscopy of single-wall carbon nanotubes. It contains chapters on diverse experimental and theoretical aspects of the field, written by internationally recognized experts. The volume serves as an important resource for researchers and students interested in carbon nanotubes.
Graphene and Its Fascinating Attributes
Graphene, a single sheet of graphite, has an unconventional electronic structure that can be described in terms of massless Dirac Fermions. This interesting electronic feature is not only an important fundamental issue in condensed matter physics but also
Physics and Chemistry of Graphene
From a chemistry aspect, graphene is the extrapolated extreme of condensed polycyclic hydrocarbon molecules to infinite size. Here, the concept on aromaticity which organic chemists utilize is applicable. Interesting issues appearing between physics and chemistry are pronounced in nano-sized graphene (nanographene), as we recognize the importance of the shape of nanographene in understanding its electronic structure. In this book, the fundamental issues on the electronic, magnetic, and chemical properties of condensed polycyclic hyodrocarbon molecules, nanographene and graphene are comprehensively discussed.
Graphene-Rubber Nanocomposites
Since the Nobel Prize for the discovery of graphene was presented in 2010, graphene has been frequently leveraged for different applications. Owing to the strategic importance of elastomer-based products in different segments, graphene and its derivatives are often added to different elastomers to improve their properties. Graphene-Rubber Nanocomposites: Fundamentals to Applications provides a comprehensive and innovative account of graphene-rubber composites. Features: Provides up-to-date information and research on graphene-rubber nanocomposites Presents a detailed account of the different niche applications ranging from sensors, flexible electronics to thermal, and EMI shielding materials...
Physical Properties of High Temperature Superconductors IV
This volume contains two chapters of direct interest for applications: The magnetic vortex states and transformations and the effects of c-axis coupling on the transport properties. In addition, the isotope effect is reviewed, since reliable data on ultra-pure samples are now available. The lattice vibrations (phonons) have been explored extensively by inelastic neutron scattering and infrared absorption and these types of data are reviewed as well. The interesting properties of the superconducting doped fullerenes are described; some of their most fundamental properties are shared by the superconducting cuprates. This book with its subject index, like the earlier three volumes in this series, will be found useful both by people entering the field and by workers who are already active in it.
