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内容大纲
本书为“未来能源技术系列”之一。介孔碳基薄膜因其独特的性能可视为是一种很有前途的高效储能转换材料。本书系统阐述了制备介孔碳基材料及薄膜器件的各种方法,探讨了提高性能的作用机制,介绍了介孔碳基材料及薄膜器件在能源及催化方面的综合应用。本书可供高等院校新能源、新材料方向的本科生和研究生参考,也可供相关领域从业人员参考。 -
作者介绍
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目录
1 Introduction of Energy Materials
1.1 Introduction
1.2 The Challenge about Energy
1.3 Research Contents and Methods of Energy Materials
References
2 Mesoporous Materials
2.1 Introduction of Mesoporous Materials
2.1.1 Introduction
2.1.2 Applications of Mesoporous Carbons
2.2 Advantages of Mesoporous Materials
2.3 Future Development of Mesoporous Carbon Materials
References
3 Synthesis Methods of Mesoporous Carbon-Based Materials
3.1 Hard-Templating Method
3.1.1 Ordered Mesoporous Carbon Materials
3.1.2 Ordered Mesoporous Carbon Materials with Graphitic Pore- Wall Structure
3.1.3 Disordered Mesoporous Carbon Materials with Uniform Mesopores
3.2 Soft-Templating Method
3.2.1 Soft-Templating Approach
3.2.2 Recent Developments in Soft-Templating Synthesis
3.3 Multiple-Templating Method
3.4 Template-Free Method
References
4 Nano Materials Self-Assembly
4.1 Introduction of Nano Materials Self-Assembly
4.2 Interracial Assemblies of Mesoporous Materials
4.3 Self-Assembly of Mesoporous Film Functional Materials
References
5 Interfacial Assemblies for Film Devices
5.1 Liquid-Solid Interracial Assembly
5.1.1 Flow-Directed Interracial Assembly
5.1.2 Superlattice Interfacial Assembly
5.1.3 Solvent-Casting Interracial Assembly
5.1.4 Evaporation-Induced Self-Assembly (EISA)
5.1.5 Dip-Coating Assembly
5.1.6 Spinning Assembly
5.1.7 Electrospinning Assembly
5.1.8 Other Liquid-Solid Interracial Assembly
5.2 Gas-Liquid Interfacical Assembly
5.2.1 Assembly at Air-Water Interface
5.2.2 Aerosol-Assisted Assembly
5.3 Liquid-Liquid Interfacial Assembly
5.4 Gas-Solid Interfacial Synthesis
5.4.1 Vapor-Phase Synthesis
5.4.2 Chemical Vapor Deposition
5.4.3 Post Transformation
5.5 Solid-Solid Interfacial Synthesis
References
6 Applications for Energy Storage
6.1 Supercapacitor
6.1.1 Double-Layer Capacitance
6.1.2 Hybrid Supercapacitors
6.2 Li-Ion Battery
6.2.1 Metal-Carbon Compounds
6.2.2 Designed Architectures
6.3 SIBs
6.4 Li-S Battery
6.5 Li-Air Battery
6.5.1 Functional Carbon Film
6.5.2 N-doped Carbon Film
6.6 Li-Metal Battery
6.6.1 Bare Carbon Materials for Li Metal Anodes
6.6.2 Carbon-Metal-Based Composite Materials for Li Metal Anodes
6.6.3 Carbon-Metal Oxides/Nitrides-Based Composite Materials for Li Metal Anodes
References
7 Application in Catalysis
7.1 Hydrogen Evolution Reaction
7.1 . ! Introduction
7.1.2 Fundamentals of the HER
7.1.3 Assessment of the HER Activity and Electrocatalyst
7.1.4 Mesoporous Material Electrocatalysts for HER
7.1.5 Carbon-Based Materials Electrocatalysts for HER
7.1.6 Mesoporous Carbon-Based Film Materials for HER
7.2 Oxygen Evolution Reaction
7.2.1 Introduction
7.2.2 Fundamentals of OER
7.2.3 Mesoporous Materials Electrocatalysts for OER
7.2.4 Carbon-Based Materials Electrocatalysts for OER
7.2.5 Mesoporous Carbon-Based Film Materials for OER
7.3 Oxygen Reduction Reaction
7.3.1 Introduction
7.3.2 Fundamentals for ORR
7.3.3 Mesoporous Materials Electrocatalysts for ORR
7.3.4 Carbon-Based Materials Catalysts for ORR
7.3.5 Mesoporous Carbon-Based Film Materials for ORR
7.3.6 Hydrogen Peroxide Production
7.4 Carbon Dioxide Reduction Reaction
7.4.1 Introduction
7.4.2 Fundamentals of CO2RR
7.4.3 Mesoporous Carbon-Based Film Materials for CO2RR
7.5 Nitrogen Reduction Reaction
7.5.1 Introduction
7.5.2 Fundamentals of NRR
7.5.3 Catalysts for NRR
References
Index
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