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Graphene Science Handbook

Electrical and Optical Properties

Edited by: Mahmood Aliofkhazraei , Nasar Ali , William I. Milne , Cengiz S. Ozkan , Stanislaw Mitura , Juana L. Gervasoni

Print publication date:  April  2016
Online publication date:  April  2016

Print ISBN: 9781466591318
eBook ISBN: 9781466591325
Adobe ISBN:

10.1201/b19642
 Cite  Marc Record

Book description

Discover the Unique Electron Transport Properties of Graphene

The Graphene Science Handbook is a six-volume set that describes graphene?s special structural, electrical, and chemical properties. The book considers how these properties can be used in different applications (including the development of batteries, fuel cells, photovoltaic cells, and supercapacitors based on graphene) and produced on a massive and global scale.

Volume One: Fabrication Methods

Volume Two: Nanostructure and Atomic Arrangement

Volume Three: Electrical and Optical Properties

Volume Four: Mechanical and Chemical Properties

Volume Five: Size-Dependent Properties

Volume Six: Applications and Industrialization

This handbook describes the fabrication methods of graphene; the nanostructure and atomic arrangement of graphene; graphene?s electrical and optical properties; the mechanical and chemical properties of graphene; the size effects in graphene, characterization, and applications based on size-affected properties; and the application and industrialization of graphene.

Volume three is dedicated to graphene?s electrical and optical properties and covers:

  • Graphene and graphene nanoribbons for use in high-frequency transistors, energy-efficient electronics and photonic devices
  • The interface of graphene/high-? dielectrics
  • The strain-induced modifications of plasmons in graphene
  • A possible advanced physical framework for treating graphenic structures
  • Recent progresses in the electric lens based on graphene-like materials
  • The thermal and thermoelectric transport properties of graphene
  • A numerical method for simulating the electromagnetic field interaction with single-layer graphene and more

Table of contents

Chapter  1:  Graphene and Graphene Nanoribbons Download PDF
Chapter  2:  Interface between Graphene and High-κ Dielectrics Download PDF
Chapter  3:  Conventional and Laser Annealing to Improve Electrical and Thermal Contacts between Few-Layer or Multilayer Graphene and Metals Download PDF
Chapter  4:  Strain Effect on the Electronic Spectrum of Graphene Download PDF
Chapter  5:  Bondonic Electronic Properties of 2D Graphenic Lattices with Structural Defects Download PDF
Chapter  6:  Electric Lens in Graphene Download PDF
Chapter  7:  Electronic Properties and Transport in Finite-Size Two-Dimensional Carbons Download PDF
Chapter  8:  Electronic Properties of Graphene Nanoribbons with Transition Metal Impurities Download PDF
Chapter  9:  Electronic Structure and Transport in Graphene Download PDF
Chapter  10:  Graphene and Its Hybrids as Electrode Materials for High-Performance Lithium-Ion Batteries Download PDF
Chapter  11:  Graphene Oxide Download PDF
Chapter  12:  Modified Electronic Properties of Graphene Download PDF
Chapter  13:  Novel Electronic Properties of a Graphene Antidot, Parabolic Dot, and Armchair Ribbon Download PDF
Chapter  14:  Self-Organized Criticality, Percolation, and Electrical Instability in Graphene Analogs Download PDF
Chapter  15:  Effects of the Interaction of Transition Metals on the Electronic Properties of Graphene Nanosheets and Nanoribbons Download PDF
Chapter  16:  Electric Properties of Graphene and Its Chemisorption Derivatives Download PDF
Chapter  17:  Thermal and Thermoelectric Transport in Graphene Download PDF
Chapter  18:  Thermoelectric Effects in Graphene Download PDF
Chapter  19:  Optical Properties of Graphene Download PDF
Chapter  20:  Visible Optical Extinction and Dispersion of Graphene in Water Download PDF
Chapter  21:  Graphene Applications for Photoelectrochemical Systems Download PDF
Chapter  22:  Direct Threat of UV–Ozone-Treated Indium-Tin Oxide in Organic Optoelectronics and Stability Enhancement Using Graphene Oxide as Anode Buffer Layer Download PDF
Chapter  23:  Chemical and Optical Aspects of Supported Graphene Download PDF
Chapter  24:  Developments of Cavity-Controlled Devices with Graphene and Graphene Nanoribbon for Optoelectronic Applications Download PDF
Chapter  25:  On-Chip Graphene Optoelectronic Devices Download PDF
Chapter  26:  Photonics of Shungite Quantum Dots Download PDF
Chapter  27:  Open-Shell Character and Nonlinear Optical Properties of Nanographenes Download PDF
Chapter  28:  Optical Coupling of Graphene Sheets Download PDF
Chapter  29:  Optical Properties of Graphene in External Fields Download PDF
Chapter  30:  Optoelectronic and Transport Properties of Gapped Graphene Download PDF
Chapter  31:  Graphene-Based Nanocomposites with Tailored Electrical, Electromagnetic, and Electromechanical Properties Download PDF
Chapter  32:  Electronic Transport and Optical Properties of Graphene Download PDF
Chapter  33:  Graphene Geometric Diodes and Antennas for Terahertz Applications Download PDF
Chapter  34:  Polymer Composites with Graphene Download PDF
Chapter  35:  Probing Collective Excitations in Graphene/Metal Interfaces by High-Resolution Electron Energy Loss Spectroscopy Measurements Download PDF
Chapter  36:  Graphene/Polymer Nanocomposites for Electrical and Electronic Applications Download PDF
Chapter  37:  Chemical Vapor Deposition of Graphene for Electronic Device Application Download PDF
Chapter  38:  Chemically Converted Graphene Thin Films for Optoelectronic Applications Download PDF
Chapter  39:  Electrical and Thermal Conductivity of Indium–Graphene and Copper–Graphene Composites Download PDF
Chapter  40:  Electronic Properties of Carbon Nanotubes and Their Applications in Electrochemical Sensors and Biosensors Download PDF
Chapter  41:  Graphene Applications Download PDF
Chapter  42:  Optical Properties of Graphene and Its Applications under Total Internal Reflection Download PDF
prelims Download PDF
Index Download PDF
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