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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