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Graphene Science Handbook

Nanostructure and Atomic Arrangement

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: 9781466591370
eBook ISBN: 9781466591387
Adobe ISBN:

 Cite  Marc Record

Book description

Examines the Low Resistivity, High Mobility, and Zero Bandgap 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 two is dedicated to nanostructure and atomic arrangement and covers:

  • The potential applications of graphene heterostructures, particularly, graphene/h-BN heterostructures
  • Atomic-scale defects in graphene and the huge impact they have on its low-energy electronic structure
  • Recent findings on graphene plasmonics
  • The storage of hydrogen between graphene and inside graphene-oxide frameworks (GOFs)
  • The nitrogen contents, species, synthesis methods, and application on nitrogen-doped graphene
  • Modification methods and applications of graphene and graphene oxide
  • Phonon spectra and vibrational thermodynamic characteristics of graphene nanofilms
  • The imaging of graphene by scanning electron microscopy (SEM)
  • Advances in the formation of graphene-based three-dimensional (3D) architectures and more

Table of contents

Chapter  1:  Graphene Heterostructures Download PDF
Chapter  2:  Atomic-Scale Defects and Impurities in Graphene Download PDF
Chapter  3:  Atomic Arrangement and Its Effects on Electronic Structures of Graphene from Tight-Binding Description Download PDF
Chapter  4:  Graphene Plasmonics Light–Matter Interactions at the Atomic Scale Download PDF
Chapter  5:  Graphene/Polymer Nanocomposites Crystal Structure, Mechanical and Thermal Properties Download PDF
Chapter  6:  Graphene-Like Structures as Cages for Doxorubicin Download PDF
Chapter  7:  Mathematical Modeling for Hydrogen Storage Inside Graphene-Based Materials Download PDF
Chapter  8:  Morphology of Cylindrical Carbon Nanostructures Grown by Catalytic Chemical Vapor Deposition Method Download PDF
Chapter  9:  sp to sp Phase Transformation in Graphene-Like Nanofilms Download PDF
Chapter  10:  Symmetry and Topology of Graphenes Download PDF
Chapter  11:  N-Doped Graphene for Supercapacitors Download PDF
Chapter  12:  Electrical and Optical Properties and Applications of Doped Graphene Sheets Download PDF
Chapter  13:  Chemical Modifications of Graphene via Covalent Bonding Download PDF
Chapter  14:  Functionalization and Vacancy Effects on Hydrogen Binding in Graphene Download PDF
Chapter  15:  Modifications of Electronic Properties of Graphene by Boron (B) and Nitrogen (N) Substitution Download PDF
Chapter  16:  Electronic Structure and Topological Disorder in sp Phases of Carbon Download PDF
Chapter  17:  3D Macroscopic Graphene Assemblies Download PDF
Chapter  18:  3D-AFM-Hyperfine Imaging of Graphene Monolayers Deposit on YBCO-Superconducting Surface Download PDF
Chapter  19:  Phonon Spectrum and Vibrational Thermodynamic Characteristics of Graphene Nanofilms Download PDF
Chapter  20:  Tuning Atomic and Electronic Properties of Graphene by Selective Doping Download PDF
Chapter  21:  Scanning Electron Microscopy of Graphene Download PDF
Chapter  22:  Tunneling Current of the Contact of the Curved Graphene Nanoribbon with Metal and Quantum Dots Download PDF
Chapter  23:  Using Few-Layer Graphene Sheets as Ultimate Reference of Quantitative Transmission Electron Microscopy Download PDF
Chapter  24:  Computational Modeling of Graphene and Carbon Nanotube Structures in the Terahertz, Near-Infrared, and Optical Regimes Download PDF
Chapter  25:  Design and Properties of Graphene-Based Three Dimensional Architectures Download PDF
Chapter  26:  Electronic Structure of Graphene-Based Materials and Their Carrier Transport Properties Download PDF
Chapter  27:  Graphene-Enabled Heterostructures Role in Future-Generation Carbon Electronics Download PDF
Chapter  28:  Recent Progresses and Understanding of Lithium Storage Behavior of Graphene Nanosheet Anode for Lithium Ion Batteries Download PDF
Chapter  29:  Study of Transmission, Transport, and Electronic Structure Properties of Periodic and Aperiodic Graphene-Based Structures Download PDF
Chapter  30:  Benefits of Few-Layer Graphene Structures for Various Applications Download PDF
Chapter  31:  Designing Carbon-Based Thin Films from Graphene-Like Nanostructures Download PDF
Chapter  32:  Graphene-Based Hybrid Composites Download PDF
Chapter  33:  Graphene Dispersion by Polymers and Hybridization with Nanoparticles Download PDF
Chapter  34:  Magnetocaloric Effect of Graphenes Download PDF
Chapter  35:  Mode-Locked of Fiber Laser Employing Graphene-Based Saturable Absorber Download PDF
prelims Download PDF
Index Download PDF
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