2D Materials

2D Materials
Author: Phaedon Avouris
Publisher: Cambridge University Press
Total Pages: 521
Release: 2017-06-29
Genre: Technology & Engineering
ISBN: 1316738132
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Learn about the most recent advances in 2D materials with this comprehensive and accessible text. Providing all the necessary materials science and physics background, leading experts discuss the fundamental properties of a wide range of 2D materials, and their potential applications in electronic, optoelectronic and photonic devices. Several important classes of materials are covered, from more established ones such as graphene, hexagonal boron nitride, and transition metal dichalcogenides, to new and emerging materials such as black phosphorus, silicene, and germanene. Readers will gain an in-depth understanding of the electronic structure and optical, thermal, mechanical, vibrational, spin and plasmonic properties of each material, as well as the different techniques that can be used for their synthesis. Presenting a unified perspective on 2D materials, this is an excellent resource for graduate students, researchers and practitioners working in nanotechnology, nanoelectronics, nanophotonics, condensed matter physics, and chemistry.

Graphene Nanoribbons

Graphene Nanoribbons
Author: Antonio Tejeda
Publisher:
Total Pages: 0
Release: 2019
Genre: Graphene
ISBN: 9780750317016
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Graphene nanoribbons are the basic element of many nanoscale devices. Many studies have already been performed on fundamental research to explore their properties, both from theoretical and experimental points of view. In this book, the leading editors and authors involved in graphene nanoribbon research provide a uniquely insightful review of the field. The book introduces the theoretical properties of graphene nanoribbons, before concentrating on different fabrication methods and their properties out of different experimental characterizations. Finally, it concentrates on the perspectives of graphene nanoribbons for electronic transport. This is the one-stop handbook for researchers wanting to further utilise graphene nanoribbons. It is also a valuable reference text for any interested materials and surface scientists.

Graphene

Graphene
Author: Viera Skakalova
Publisher: Elsevier
Total Pages: 401
Release: 2014-02-16
Genre: Technology & Engineering
ISBN: 0857099337
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Graphene: Properties, Preparation, Characterisation and Devices reviews the preparation and properties of this exciting material. Graphene is a single-atom-thick sheet of carbon with properties, such as the ability to conduct light and electrons, which could make it potentially suitable for a variety of devices and applications, including electronics, sensors, and photonics. Chapters in part one explore the preparation of , including epitaxial growth of graphene on silicon carbide, chemical vapor deposition (CVD) growth of graphene films, chemically derived graphene, and graphene produced by electrochemical exfoliation. Part two focuses on the characterization of graphene using techniques including transmission electron microscopy (TEM), scanning tunneling microscopy (STM), and Raman spectroscopy. These chapters also discuss photoemission of low dimensional carbon systems. Finally, chapters in part three discuss electronic transport properties of graphene and graphene devices. This part highlights electronic transport in bilayer graphene, single charge transport, and the effect of adsorbents on electronic transport in graphene. It also explores graphene spintronics and nano-electro-mechanics (NEMS). Graphene is a comprehensive resource for academics, materials scientists, and electrical engineers working in the microelectronics and optoelectronics industries. Explores the graphene preparation techniques, including epitaxial growth on silicon carbide, chemical vapor deposition (CVD), chemical derivation, and electrochemical exfoliation Focuses on the characterization of graphene using transmission electron microscopy (TEM), scanning tunneling microscopy (STM), and Raman spectroscopy A comprehensive resource for academics, materials scientists, and electrical engineers

Introduction to Graphene-Based Nanomaterials

Introduction to Graphene-Based Nanomaterials
Author: Luis E. F. Foa Torres
Publisher: Cambridge University Press
Total Pages: 425
Release: 2014-01-23
Genre: Science
ISBN: 1107030838
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A detailed primer describing the most effective theoretical and computational methods and tools for simulating graphene-based systems.

Graphene Nanoelectronics

Graphene Nanoelectronics
Author: Raghu Murali
Publisher: Springer Science & Business Media
Total Pages: 271
Release: 2012-03-09
Genre: Technology & Engineering
ISBN: 1461405483
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Graphene has emerged as a potential candidate to replace traditional CMOS for a number of electronic applications; this book presents the latest advances in graphene nanoelectronics and the potential benefits of using graphene in a wide variety of electronic applications. The book also provides details on various methods to grow graphene, including epitaxial, CVD, and chemical methods. This book serves as a spring-board for anyone trying to start working on graphene. The book is also suitable to experts who wish to update themselves with the latest findings in the field.

Graphene

Graphene
Author: Mikhail I. Katsnelson
Publisher: Cambridge University Press
Total Pages: 367
Release: 2012-04-05
Genre: Science
ISBN: 0521195403
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An important introduction to graphene, its physics and potentially significant applications, for graduate students, physicists and materials science researchers.

Theory of Itinerant Electron Magnetism

Theory of Itinerant Electron Magnetism
Author: Jürgen Kübler
Publisher: Oxford University Press
Total Pages: 494
Release: 2017-03-23
Genre: Science
ISBN: 0191565423
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This book, in the broadest sense, is an application of quantum mechanics and statistical mechanics to the field of magnetism. Under certain well described circumstances, an immensely large number of electrons moving in the solid state of matter will collectively produce permanent magnetism. Permanent magnets are of fundamental interest, and magnetic materials are also of great practical importance as they provide a large field of technological applications. The physical details describing the many electron problem of magnetism are presented in this book on the basis of the local density functional approximation. The emphasis is on realistic magnets, for which the equations describing the many electron problem can only be solved by using computers. The great, recent and continuing improvements of computers are, to a large extent, responsible for the progress in the field. Along with a detailed introduction to the density functional theory, this book presents representative computational methods and provides the reader with a complete computer programme for the determination of the electronic structure of a magnet on a PC. A large part of the book is devoted to a detailed treatment of the connections between electronic properties and magnetism, and how they differ in the various known magnetic systems. Current trends are exposed and explained for a large class of alloys and compounds. The modern field of artificially layered systems - known as multilayers - and their industrial applications are dealt with in detail. Finally, an attempt is made to relate the rich thermodynamic properties of magnets to the ab initio results originating from the electronic structure.