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    • 石墨烯的制备性质应用与展望(英文版)(精)
      • 作者:(日)高井和之//辻村清也//康飞宇//稻垣道夫|责编:黎强
      • 出版社:清华大学
      • ISBN:9787302556213
      • 出版日期:2020/06/01
      • 页数:607
    • 售价:119.2
  • 内容大纲

        石墨烯是从石墨中提取的一种新型碳材料,具有非同寻常的机械性能和物理性能。本书从材料制各、性能评价、各种开发和应用技术等方面详细讨论了这种新型材料的研究进展,探讨了这种材料的发展前景和技术路径。
        本书可供高校和科研院所有关材料、物理、电子等专业的师生阅读,也可供上述专业的技术人员参考。
  • 作者介绍

  • 目录

    Preface
    Acknowledgments
    Chapter 1: Introduction
      1.1  What is graphene
      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
        1.2.3  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
        2.2.3  Cleavage via intercalation compounds
      2.3  Exfoliation via graphene oxide
        2.3.1  Synthesis of graphene oxide
        2.3.2  Exfoliation of graphene oxide
        2.3.3  Reduction of graphene oxide
        2.3.4  Fabrication of reduced graphene oxide foams(sponges)
        2.3.5  Functionalization of reduced graphene oxide
        2.3.6  Substitutional doping of heteroatoms
        2.3.7  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 and applications
      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
        3.2.3  Transparent electrode
      3.3  Applications to social 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 and applications
      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
        4.2.3  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 and applications
      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 and applications
      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 and applications
      7.1  Biocompatibility
      7.2  Cell management
        7.2.1  Scaffolds for cell culturing
        7.2.2  Stem cell differentiation
        7.2.3  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
        8.2.3  Single layers of transition metal dichalcogenides
      8.3  Layer-by-layer composites
      8.4  Concluding remarks
      References
    Chapter 9: Summary and prospects
      9.1  Summary on graphene
      9.2  Prospects
        9.2.1  Importance of number of layers stacked
        9.2.2  Two kinds of graphene materials
        9.2.3  Field effect and zero bandgap
        9.2.4  Extremely high thermal conductivity
        9.2.5  Basics for molecular sensing
        9.2.6  Basics for foreign atom doping
        9.2.7  Importance of r-t interaction
        9.2.8  Biomedical applications
        9.2.9  New composite materials
        9.2.10  Extension to organic chemistry
      References
    Index

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