1.2 Fundamentals of materials science for carbon materials
1.2.1 Classification of carbon materials
1.2.2 Structure and nanotexture of carbon materials
1.. Carbonization and graphitization
1.2.4 Carbon materials
1.3 Construction and purposes of the current book
References
Chapter 2: Preparation of graphene
2.1 Chemical vapor deposition
2.1.1 Synthesis of graphene flms
2.1.2 Synthesis of graphene flakes
2.1.3 Synthesis of single-walled carbon nanohorns
2.1.4 Substitutional doping of heteroatoms
2.1.5 Graphene foams
2.2 Cleavage(peeling)
2.2.1 Mechanical cleavage
2.2.2 Cleavage in solution
2.. Cleavage via intercalation compounds
. Exfoliation via graphene oxide
..1 Synthesis of graphene oxide
..2 Exfoliation of graphene oxide
.. Reduction of graphene oxide
..4 Fabrication of reduced graphene oxide foams(sponges)
..5 Functionalization of reduced graphene oxide
.. Substitutional doping of heteroatoms
.. Fabrication of transparent reduced graphene oxide films
2.4 Other processes
2.4.1 Chemical synthesis
2.4.2 Synthesis via pyrolysis
2.4.3 Unzipping of carbon nanotubes
2.5 Concluding remarks
References
Chapter 3: Electrical properties an ppictons
3.1 Fundamental electrical properties
3.1.1 Electronic structure of graphene
3.1.2 Effects of defects and edges
3.2 Applications to information technology
3.2.1 Transistor devices
3.2.2 Spintronics devices
3.. Transparent electrode
3.3 Applications to so fields
3.3.1 Sensor devices
3.3.2 Photon detectors
3.3.3 Resistance standard
3.3.4 Electron field emission
3.4 Concluding remarks
References
Chapter 4: Chemical properties an ppictons
4.1 Fundamental chemical properties
4.1.1 Hydrogenation
4.1.2 Oxygenation
4.1.3 Layer modification
4.2 Applications to energy storage and conversion
4.2.1 Lithium-ion batteries
4.2.2 Electrochemical capacitors
4.. Lithium-ion capacitors
4.2.4 Lithium-sulfur batteries
4.2.5 Solar cells (photovoltaic cells)
4.2.6 Fuel cells
4.2.7 Hydrogen storage
4.3 Applications to environment remediation
4.3.1 Adsorption of polluting molecules and ions
4.3.2 Sorption and recovery of oils
4.3.3 Capacitive deionization for water desalination
4.3.4 Catalysts
4.3.5 Chemical sensors
4.4 Concluding remarks
References
Chapter 5: Mechanical properties an ppictons
5.1 Fundamental mechanical properties
5.2 Nanolubricants
5.3 Mechanical sensors
5.4 Mechanical reinforcement
5.4.1 Reinforcement of plastics
5.4.2 Reinforcement of ceramics
5.4.3 Reinforcement of metals
5.5 Reduced graphene oxide fibers
5.6 Concluding remarks
References
Chapter 6: Thermal properties an ppictons
6.1 Fundamental thermal properties
6.2 Thermal interface materials
6.3 Nanofluids
6.4 Thermoelectric power
6.5 Thermal energy storage
6.6 Concluding remarks
References
Chapter 7: Biomedical properties an ppictons
7.1 Biocompatibility
7.2 Cell management
7.2.1 Scaffolds for cell culturing
7.2.2 Stem cell differentiation
7.. Cell imaging
7.2.4 Antibacterial activity
7.3 Drug delivery systems
7.4 Biosensors
7.5 Concluding remarks
References
Chapter 8: Beyond graphene
8.1 Graphene derivatives
8.1.1 Graphane (hydrogenated graphene)
8.1.2 Fluorographene(fluorinated graphene)
8.1.3 Graphene oxide (oxidized graphene)
8.1.4 Graphyne and graphdiyne
8.2 Single-layer materials
8.2.1 Honeycomb layers of group IV elements
8.2.2 Honeycomb layers of group II-V compounds
……
The authors of this book are coed of two persons who have been working on carbon materials, published many research papers and recently published three books on carbon materials on their fundamentals, advances and characterizations (M. Inagaki and F. Kang) and two persons who have been working on graphene from the standpoints of physics (K. Takai), and biochemical applications (S. Tsujimura). The book is going to be written under the corporation of four authors by sharing the responsibilities on whole