Graphene for Defense and Security 1st Edition by Andre Sokolnikov 1351646680 9781351646680

Graphene for Defense and Security 1st Edition by Andre U. Sokolnikov – Ebook PDF Instant Download/DeliveryISBN:  1351646680, 9781351646680 

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ISBN-10 :  1351646680 

ISBN-13 :  9781351646680

Author:   Andre U. Sokolnikov 

Graphene is giving new impetus to the electronics industry because its band structure allows its properties to be dramatically altered and modified by chemical or electrochemical doping methods. This book provides a comprehensive source of information about graphene as a phenomenon, its physics and its mechanical and chemical properties in the light of the latest scientific and technological discoveries. The major focus of the book is on military and special applications since that is where the biggest investments are made.

Graphene for Defense and Security 1st Table of contents:

Chapter 1 Introduction
1.1 2D Crystals
1.2 Graphene Electron Bands
1.2.1 Landau Level Effects
1.3 Andre K. Geim and Konstantin S. Novoselov’s Breakthrough and Graphene Development’s Perspective
References
Chapter 2 Physics of Important Developments That Predestined Graphene
2.1 Low and High – Field Effects in 2D
2.1.1 The Quantized Hall Effect
2.2 Thermal Motion in a 2D Structure
2.3 Crystalline Limitation Predictions
2.4 Vibrations of Thin Plates
2.5 Sources of 2D Layer Strains
References
Chapter 3 Graphene: Physical Properties
3.1 Graphene Several-Layer Thick
3.2 Optical Properties
3.3 Thermal Properties
3.4 Mechanical Properties
3.5 Quantum Hall Effect in Graphene
3.6 Active Graphene Plasmonics
3.7 Quantum Scars in Graphene
References
Chapter 4 Quantum Mechanics of Graphene
4.1 Carbon Atom and Its Structure
4.2 Wavefunction Solutions
4.3 Carbon Atom States and Bonding
4.4 Formation of Crystalline Carbon
4.4.1 Quantum Mechanics of One-Electron Covalent Bond
4.4.2 Tetrahedral Bonding Example
4.4.3 Planar sp2 and π-Bonding
4.4.4 Molecular Carbon Variations: Fullerene C60, Graphene and Fluorographene
4.4.5 Formation of Graphite
References
Chapter 5 Properties of Electrons in Graphene
5.1 Basic Electron Bands of Graphene
5.1.1 Dual-Lattice Aspect
5.2 Bilayer Graphene
References
Chapter 6 Producing Graphene: Methods and Sources
6.1 Chemical Methods of Producing Graphene Layers
6.1.1 Bulk Exfoliation
6.2 Epitaxial Methods of Producing Graphene Layers
6.2.1 Carbide Substrates for Epitaxial Growth
6.2.2 Graphene Growth from Carbon-Containing Gases
6.2.3 Quality Control of CVD Graphene
6.2.4 Chemically Modified Graphene and Graphene-Like Structures
6.3 Graphene Nanoribbons
6.3.1 Graphene Nanoribbons’ Band Gaps
6.3.2 Nanoribbon Manufacturing
References
Chapter 7 Methods of Materials Characterization of Graphene
7.1 Additional Physical Properties of Graphene
7.2 Spectroscopic Methods of Graphene Characterization
7.2.1 Quantum Capacitance
7.2.2 Scanning Electron Microscopy
References
Chapter 8 Experimental Considerations of 2D Graphene
8.1 Graphene Deformity under a Gravitational Force
8.2 Structural Defects under Applied Strain
8.3 Thermal Expansion in Graphene
8.4 Graphene Surface Non-Uniformity and Electron Diffraction Methods
8.5 Electronic Properties of Graphene
8.6 Extrinsic and Intrinsic Effects in Graphene
8.7 Gas Pressure and Graphene Crystal Structure
8.8 Metallic Transitions in Graphene
8.9 Graphene Disintegration
8.10 Non-Local Irregularity
8.11 Klein Tunneling Effect in Graphene
8.12 Superconduction in Graphene
8.13 Further Areas of Anomalous Behavior
References
Chapter 9 Applications of Graphene
9.1 Graphene NEMS (GNEMS)
9.2 Graphene FETs
9.2.1 Graphene FETs Grown on SiC
9.2.2 Electrostatic Doping for Vertical Tunnel FETs
9.2.3 The Graphene Barrister
9.2.4 Ultrafast Optical Detector
9.3 Compact Sources of Energy: Batteries, Solar Cells, and Connections
9.4 Graphene Storing Capabilities
9.5 Graphene’s Prospective Special Applications
9.6 Memory Devices
9.7 Graphene for FET Switches
9.8 Graphene Tunneling FETs
9.9 Graphene-Based Sensors
9.10 Optoelectronic Modulator
9.11 Passively Q-Switched Nd:GdTaO3 Laser by Graphene Oxide Saturable Absorber
9.12 Graphene Mode-Locked and Q-Switched 2 – μm Tm/Ho Fiber Lasers
9.13 Harmonic Mode-Locking and Wavelength-Tunable Q-Switching Generation
References
Chapter 10 Summary
Index

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Tags: Graphene, Defense, Security, Andre Sokolnikov