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Graphene : fundamentals and emergent applications /
Providing fundamental knowledge necessary to understand graphene's atomic structure, band-structure, unique properties and an overview of groundbreaking current and emergent applications, this new handbook is essential reading for materials scientists, chemists and physicists. Since the 2010 ph...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam :
Elsevier,
2013.
|
| Edición: | 1st ed. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover
- Graphene: Fundamentals and Emergent Applications
- Copyright
- Contents
- Chapter 1
- Introduction
- 1.1. ABOUT THE BOOK
- REFERENCES
- Chapter 2
- The Atomic Structure of Graphene and Its Few-layer Counterparts
- 2.1. GRAPHENE
- 2.2. BILAYER, TRILAYER AND FEW-LAYER GRAPHENE
- 2.3. RELATIONSHIP OF GRAPHENE TO CARBON NANOTUBES
- 2.4. OTHER LAYERED 2D CRYSTALS
- 2.5. NANOSTRUCTURED GRAPHENE
- REFERENCES
- Chapter 3
- Properties of Graphene
- 3.1
- Electronic Properties
- 3.1.1. INTRODUCTION
- 3.1.2. THE BAND STRUCTURE OF GRAPHENE.
- 3.1.3. TRANSPORT EXPERIMENTS IN GRAPHENE
- REFERENCES
- 3.2
- Chemical Properties of Graphene
- 3.2.1. INTRODUCTION
- 3.2.2. COVALENT FUNCTIONALISATION OF GRAPHENE
- 3.2.3. NONCOVALENT FUNCTIONALISATION OF GRAPHENE
- 3.2.4. SUMMARY
- REFERENCES
- 3.3
- Electron Spin Properties of Graphene
- 3.3.1. INTRODUCTION
- 3.3.2. SPIN AND MAGNETISM IN GRAPHITE
- 3.3.3. MAGNETISM AND SPIN IN GRAPHENE
- 3.3.4. SUMMARY
- REFERENCES
- 3.4
- The Mechanical Properties of Graphene
- 3.4.1. ELASTIC PROPERTIES AND INTRINSIC STRENGTH
- 3.4.2. ADHESION, TEARING AND CRACKING OF GRAPHENE.
- 3.4.3. THE ROLE OF DEFECTS AND STRUCTURAL MODIFICATION ON THE MECHANICAL PROPERTIES
- 3.4.4. GRAPHENE DERIVATIVES
- 3.4.5. GRAPHENE-BASED COMPOSITES
- REFERENCES
- 3.5
- The Thermal Properties of Graphene
- 3.5.1. THERMAL CONDUCTIVITY
- REFERENCES
- Chapter 4
- Methods for Obtaining Graphene
- 4.1
- Mechanical Exfoliation
- 4.1.1. INTRODUCTION TO MECHANICAL EXFOLIATION
- 4.1.2. MICROMECHANICAL EXFOLIATION
- 4.1.3. MECHANICAL CLEAVAGE OF GRAPHITE
- 4.1.4. MECHANICAL MILLING OF GRAPHITE
- 4.1.5. SUMMARY
- REFERENCES
- 4.2
- Chemical Exfoliation.
- 4.2.1. INTRODUCTION TO CHEMICAL EXFOLIATION
- 4.2.2. REVIEW OF CHEMICAL EXFOLIATION
- 4.2.3. DIFFERENT TYPES OF GRAPHITE
- 4.2.4. DIFFERENT TYPES OF SOLVENTS
- 4.2.5. DIFFERENT TYPES OF SONICATION
- 4.2.6. HOW TO CHARACTERISE CHEMICALLY EXFOLIATED GRAPHENE
- 4.2.7. OTHER 2D CRYSTALS
- 4.2.8. SUMMARY
- REFERENCES
- 4.3
- Reduced Graphene Oxide
- 4.3.1. GRAPHENE OXIDE
- 4.3.2. CHEMICAL REDUCTION OF GRAPHENE OXIDE
- 4.3.3. HEAT TREATMENT OF GRAPHENE OXIDE
- 4.3.4. ELECTROCHEMICAL REDUCTION OF GRAPHENE OXIDE
- 4.3.5. SUMMARY
- REFERENCES.
- 4.4
- Bottom-up Synthesis of Graphene From Molecular Precursors
- 4.4.1. INTRODUCTION
- 4.4.2. SOLUTION-BASED APPROACHES
- 4.4.3. SOLUBILISATION STRATEGIES
- 4.4.4. SOLVOTHERMAL SYNTHESIS AND SONICATION
- 4.4.5. CHEMO-THERMAL BASED APPROACHES
- 4.4.6. SELF-ASSEMBLY OF GRAPHENE OXIDE NANOSHEETS
- REFERENCES
- 4.5
- Chemical Vapour Deposition Using Catalytic Metals
- 4.5.1. INTRODUCTION
- 4.5.2. CHEMICAL VAPOUR DEPOSITION (CVD) BASICS
- 4.5.3. SUBSTRATE SELECTION
- 4.5.4. SUBSTRATE PRE-TREATMENT
- 4.5.5. GRAPHENE OVER NI AND CU
- 4.5.6. EARLY GROWTH.