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Electrical Conduction in Graphene and Nanotubes 1st Edition by Shigeji Fujita, Akira Suzuki ISBN 3527411518 9783527411511
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Electrical Conduction in Graphene and Nanotubes 1st Edition Shigeji Fujita Digital Instant Download
ISBN(s): 9783527411511, 3527411518
Edition: 1
File Details: PDF, 2.53 MB
Year: 2013
Language: english
Electrical Conduction in Graphene and Nanotubes 1st Edition by Shigeji Fujita, Akira Suzuki – Ebook PDF Instant Download/Delivery: 3527411518, 9783527411511
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Product details:
ISBN 10: 3527411518
ISBN 13: 9783527411511
Author: Shigeji Fujita, Akira Suzuki
Electrical Conduction in Graphene and Nanotubes 1stTable of contents:
Part I: Fundamental Concepts
- Chapter 1: Introduction to Carbon Nanostructures
- Discovery and Structure of Graphene
- Discovery and Structure of Carbon Nanotubes (CNTs)
- Types of Carbon Nanotubes (Armchair, Zigzag, Chiral)
- Unique Properties of Carbon Materials
- Applications and Future Prospects
- Chapter 2: Quantum Mechanics Review for Solid State
- Basic Principles of Quantum Mechanics
- Schrödinger Equation and Its Solutions
- Energy Bands and Brillouin Zones
- Density of States
- Effective Mass Concept
- Chapter 3: Introduction to Electrical Conduction
- Ohm’s Law and Electrical Resistivity
- Drude Model of Conduction
- Band Theory of Solids
- Metals, Semiconductors, and Insulators
- Quantum Conduction Basics
Part II: Electrical Conduction in Graphene
- Chapter 4: Electronic Structure of Graphene
- Graphene Lattice and Unit Cell
- Tight-Binding Model for Graphene
- Dirac Cones and Dirac Fermions
- Linear Dispersion Relation
- Absence of a Band Gap
- Chapter 5: Transport Properties of Graphene
- Carrier Mobility and Conductivity
- Ambipolar Field Effect
- Minimum Conductivity
- Quantum Hall Effect in Graphene
- Weak Localization and Antilocalization
- Chapter 6: Scattering Mechanisms in Graphene
- Phonon Scattering
- Impurity Scattering
- Defect Scattering
- Edge Scattering
- Substrate Effects
Part III: Electrical Conduction in Carbon Nanotubes
- Chapter 7: Electronic Structure of Carbon Nanotubes
- Rolling Up Graphene to Form Nanotubes
- Chirality and Band Gap Dependence
- Metallic vs. Semiconducting Nanotubes
- Density of States in CNTs
- One-Dimensional Nature of Conduction
- Chapter 8: Transport Properties of Carbon Nanotubes
- Ballistic Transport
- Quantized Conductance
- Field-Effect Transistors (FETs) based on CNTs
- Thermoelectric Properties
- Chapter 9: Effects of Defects and Doping in Nanotubes
- Structural Defects and Their Impact on Conduction
- Doping Strategies for CNTs
- Superconductivity in Carbon Nanotubes
- Chapter 10: Inter-tube and Device Conduction
- Junctions between CNTs
- Contacts to External Electrodes
- Networks of Carbon Nanotubes
- CNT-based Devices (Sensors, Transistors)
Part IV: Advanced Topics and Applications
- Chapter 11: Beyond Simple Models
- Kubo Formula Approach
- Non-Equilibrium Green’s Function (NEGF) Formalism
- First-Principles Calculations
- Chapter 12: Heterostructures and Hybrid Materials
- Graphene/h-BN Heterostructures
- CNT/Graphene Hybrids
- Integration with Other Materials
- Chapter 13: Emerging Applications
- High-Frequency Electronics
- Flexible and Transparent Electronics
- Energy Storage and Conversion
- Bio-sensing and Medical Applications
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Tags: Shigeji Fujita, Akira Suzuki, Electrical, Graphene