| Preface |
| Introduction to carbon materials / 1: |
| Introduction / 1.1: |
| Graphite / 1.1.1: |
| Diamond / 1.1.2: |
| Fullerene / 1.1.3: |
| The graphite family / 1.2: |
| Graphite and turbostratic carbon / 1.2.1: |
| Carbon fibers and nanofibers / 1.2.2: |
| Carbon nanotubes / 1.2.3: |
| Intercalated graphite / 1.2.4: |
| Graphite oxide / 1.2.5: |
| Exfoliated graphite / 1.2.6: |
| Flexible graphite / 1.2.7: |
| Graphene / 1.2.8: |
| Activated carbon / 1.2.9: |
| Carbon black / 1.2.10: |
| Carbon-carbon composites / 1.2.11: |
| The diamond family / 1.3: |
| Diamond-like carbon / 1.3.1: |
| Graphane |
| The fullerene family / 1.4: |
| References |
| Structure of graphite and carbon in the graphite family / 2: |
| Fabrication of graphite / 2.2: |
| Polycrytalline graphite / 2.2.1: |
| Graphite flakes / 2.2.2: |
| Pyrolytic graphite / 2.2.3: |
| Properties of graphite / 2.3: |
| Reciprocal lattice / 2.4: |
| Electronic energy bands / 2.5: |
| Magnetic energy levels / 2.6: |
| Electrical properties / 2.7: |
| Lattice vibrations / 2.8: |
| Graphite intercalation compounds / 2.9: |
| Classification of graphite intercalation compounds / 2.9.1: |
| Covalent intercalation compounds / 2.9.2: |
| Graphite oxide (graphitic acid) / 2.9.2.1: |
| Carbon monofluoride (graphite monofluoride) / 2.9.2.2: |
| Tetracarbon monofluoride / 2.9.2.3: |
| Ionic intercalation compounds / 2.9.3: |
| Graphite-halogens / 2.9.3.1: |
| Graphite-alkali metals / 2.9.3.2: |
| Graphite-acid compounds / 2.9.3.3: |
| Graphite-halide compounds / 2.9.3.4: |
| Intercalated graphite fibers / 2.9.4: |
| Structure and formation / 2.10: |
| Viscoelastic and elastomeric properties / 2.10.2: |
| Dielectric properties / 2.10.3: |
| Thermal and electrical conductivities / 2.10.4: |
| Adsorption and filtration behavior / 2.10.5: |
| Electronic structure of graphene / 2.11: |
| Optical behavior / 3.3: |
| Defects in graphene / 3.4: |
| Mechanical behavior / 3.5: |
| Preparation of graphene / 3.6: |
| Preparation of graphene by the cleavage of graphite / 3.6.1: |
| Preparation of graphene by the mechanical disintegration of intercalated graphite / 3.6.2: |
| Preparation of graphene by the chemical reduction of graphene oxide / 3.6.3: |
| Preparation of graphene by nonoxidizing liquid exfoliation / 3.6.4: |
| Preparation of graphene by chemical vapor deposition / 3.6.5: |
| Graphene yarns / 3.7: |
| Graphene paper / 3.8: |
| Graphene foam / 3.9: |
| Graphene ink / 3.10: |
| Graphene quantum dots / 3.11: |
| Doping of graphene / 3.12: |
| Hybrids of graphene and carbon nanotubes / 3.13: |
| Hybrids of graphene and carbon fibers / 3.14: |
| Hybrids of graphene and electrochemical electrode materials / 3.15: |
| Fabrication / 4: |
| Structure / 4.3: |
| Squish ability and compaction / 4.4: |
| Application in thermal interface materials / 4.5: |
| Application as an electrically conductive additive / 4.6: |
| Dielectric behavior / 4.7: |
| Viscoelastic behavior / 4.8: |
| Nanoindentation behavior / 4.8.1: |
| Dynamic mechanical properties / 4.8.2: |
| Carbon black composites / 4.9: |
| Competing materials / 4.10: |
| Market and applications / 4.11: |
| Structure of activated carbon / 5: |
| Adsorption / 5.2: |
| Forms of activated carbon / 5.3: |
| Granular activated carbon / 5.3.1: |
| Powdered activated carbon / 5.3.2: |
| Extruded activated carbon / 5.3.3: |
| Bead activated carbon / 5.3.4: |
| Activated carbon assemblies / 5.4: |
| Honeycomb carbon filters / 5.4.1: |
| Activated carbon blocks with hollow channels / 5.4.2: |
| Activated carbon foam / 5.4.3: |
| Activated carbon foam assemblies / 5.4.4: |
| Activated carbon fiber fabric / 5.4.5: |
| Activated carbon composites / 5.4.6: |
| Fabrication of activated carbon / 5.5: |
| Steam activation / 5.5.1: |
| Gas activation / 5.5.2: |
| Chemical activation / 5.5.3: |
| Regeneration of activated carbon / 5.6: |
| Processing-structure-properly relationships of activated carbon / 5.7: |
| Applications of activated carbon / 5.8: |
| Water purification / 5.8.1: |
| Air purification / 5.8.2: |
| Gas purification / 5.8.3: |
| Waste treatment / 5.8.4: |
| Carbon dioxide capture / 5.8.5: |
| Heat pumps and refrigeration / 5.8.6: |
| Electrochemical components / 5.8.7: |
| Catalyst support / 5.8.8: |
| Market of activated carbon / 5.9: |
| Carbon fibers / 6: |
| Applications and market / 6.1: |
| Continuous fiber assemblies / 6.3: |
| Discontinuous fibers / 6.4: |
| Microstructure / 6.5: |
| Continuous carbon fibers vs. other materials / 6.6: |
| Carbon fiber composites / 6.8: |
| Carbon nanofibers and nanotubes / 7: |
| Structure of carbon nanofibers and nanotubes / 7.1: |
| Properties of carbon nanofibers and nanotubes / 7.3: |
| Mats and yams of CNFs/CNTs / 7.4: |
| Mats / 7.4.1: |
| Fabrication of mats / 7.4.1.1: |
| Electrical and electromagnetic behavior of mats / 7.4.1.2: |
| Mechanical behavior of mats / 7.4.1.3: |
| Electrochemical behavior of mats / 7.4.1.4: |
| Yarns / 7.4.2: |
| Fabrication of yarns / 7.4.2.1: |
| Mechanical behavior of yarns / 7.4.2.2: |
| Assemblies involving CNTs/CNFs / 7.5: |
| Vertically aligned CNTs / 7.5.1: |
| CMF/CNT with filled core channel / 7.5.2: |
| CNFs/CNTs grown on carbon fibers / 7.5.3: |
| CNTs grown on carbon black / 7.5.4: |
| CNTs grown on graphene, reduced graphene oxide or exfoliated graphite / 7.5.5: |
| Carbon deposited on CNTs / 7.5.6: |
| CNTs grown on alumina / 7.5.7: |
| CNTs grown on silica fibers / 7.5.8: |
| CNFs grown on cordierite / 7.5.9: |
| CNTs grown on metals / 7.5.10: |
| CNTs attached to polymers / 7.5.11: |
| CNFs/CNTs mixed with electrochemical electrode material / 7.5.12: |
| Fabrication of carbon nanofibers and nanotubes / 7.6: |
| Fabrication of carbon nanofibers/nanotubes from carbonaceous gases / 7.6.1: |
| Fabrication of carbon nanofibers from electro spun polymer nanofibers / 7.6.2: |
| Graphitization of carbon nanofibers / 7.6.4: |
| Index / 7.7: |
| Preface |
| Introduction to carbon materials / 1: |
| Introduction / 1.1: |
図書
雑誌
