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Preface; The Carbon Economy: Current Dilemma; Acknowledgment; Author Contributions; References; Contents; List of Contributors; 1 Photocatalytic Hydrogen Evolution; 1.1 Introduction; 1.2 Fundamental Mechanisms; 1.3 Semiconductor Photocatalysts; 1.4 d0 Metal Oxide Photocatalyst; 1.4.1 Group 4 Elements (Ti, Zr)-Based Oxides; 1.4.2 Group 5 Elements (Nb, Ta)-Based Oxides; 1.4.3 Group 6 Elements (W, Mo) and Other d0 Elements-Based Oxides; 1.4.4 d10 Metal Oxide Photocatalyst; 1.4.5 f0 Metal Oxide Photocatalyst; 1.4.6 Nonmetal Oxide Photocatalyst; 1.5 Approaches to Modify Electronic Band Structure
1.5.1 Doping1.5.2 Metal Ion Doping; 1.5.3 Nonmetal Doping; 1.5.4 Solid Solutions; 1.5.5 Dye Sensitization; 1.5.6 Cocatalyst Loading; 1.5.6.1 Noble Metal Cocatalyst; 1.5.6.2 Nontransition-Metal Cocatalyst; 1.6 Nanostructure of Semiconductors; 1.6.1 0-D Material; 1.6.2 1-D Material; 1.6.3 2-D Material; 1.7 Sacrificial Reagents; 1.8 Overall Water Splitting; 1.9 Perovskite-Structure Photocatalyst; 1.10 Perovskite Solar Cell; 1.11 Summary and Future Prospects; References; 2 Transition Metal Complexes for Hydrogen Activation; 2.1 Introduction and Background
2.2 Molecular Complexes for Hydrogen Activation2.2.1 Hydrogen Activation by Mononuclear Transition Metal Complexes; 2.2.1.1 Homolytic Cleavage of H2; 2.2.1.2 Heterolytic Cleavage of H2; 2.2.1.3 Transition Metal Complex as Homogenous Hydrogenation Catalysts; 2.2.2 Heterometallic Cluster Complexes for Hydrogen Activation; 2.2.2.1 Heterometallic Cluster Complexes for Hydrogen Activation and Homogenous Hydrogenation Catalysis; 2.2.2.2 Biomimetic Model Complexes for Hydrogen Activation; 2.3 Supported Nanoclusters for Hydrogenation Reactions
2.3.1 Transition Metal Cluster Complexes as Precursors for Heterogeneous Hydrogenation2.3.2 Heavy Main Group Metal Modified Transition Metal Clusters as Supported Catalysts for Hydrogenation; 2.4 Summary; References; 3 Hydrogen Separation Membranes of Polymeric Materials; 3.1 Overview of Hydrogen Separation Membrane Technology; 3.2 Principles of Hydrogen Separation Membrane; 3.2.1 Gas Separation Mechanism; 3.2.2 Gas Separation Mechanism for Polymer Membrane; 3.2.3 Gas Separation Performance Evaluation; 3.3 Polymer Materials and Membrane Structure
3.3.1 Polymeric Membrane Material for Hydrogen Separation3.3.1.1 Polyimide (PI); 3.3.1.2 Polybenzimidazole (PBI); 3.3.2 Hydrogen Separation Membrane Structure; 3.3.2.1 Dense Membrane; 3.3.2.2 Porous Membrane; 3.3.2.3 Hybrid Microporous Membrane; Mixed Matrix Membrane; Polymer Intrinsic Microporosity; 3.4 Industrial Application of Hydrogen Separation Polymer Membrane; 3.4.1 Current Industrial Development; 3.4.2 Membrane Fabrication Technique; 3.4.3 Modules and System Configuration; 3.5 Summary and Next Generation Hydrogen Separation Membrane; References; 4 Hydrogen Storage Technologies
1.5.1 Doping1.5.2 Metal Ion Doping; 1.5.3 Nonmetal Doping; 1.5.4 Solid Solutions; 1.5.5 Dye Sensitization; 1.5.6 Cocatalyst Loading; 1.5.6.1 Noble Metal Cocatalyst; 1.5.6.2 Nontransition-Metal Cocatalyst; 1.6 Nanostructure of Semiconductors; 1.6.1 0-D Material; 1.6.2 1-D Material; 1.6.3 2-D Material; 1.7 Sacrificial Reagents; 1.8 Overall Water Splitting; 1.9 Perovskite-Structure Photocatalyst; 1.10 Perovskite Solar Cell; 1.11 Summary and Future Prospects; References; 2 Transition Metal Complexes for Hydrogen Activation; 2.1 Introduction and Background
2.2 Molecular Complexes for Hydrogen Activation2.2.1 Hydrogen Activation by Mononuclear Transition Metal Complexes; 2.2.1.1 Homolytic Cleavage of H2; 2.2.1.2 Heterolytic Cleavage of H2; 2.2.1.3 Transition Metal Complex as Homogenous Hydrogenation Catalysts; 2.2.2 Heterometallic Cluster Complexes for Hydrogen Activation; 2.2.2.1 Heterometallic Cluster Complexes for Hydrogen Activation and Homogenous Hydrogenation Catalysis; 2.2.2.2 Biomimetic Model Complexes for Hydrogen Activation; 2.3 Supported Nanoclusters for Hydrogenation Reactions
2.3.1 Transition Metal Cluster Complexes as Precursors for Heterogeneous Hydrogenation2.3.2 Heavy Main Group Metal Modified Transition Metal Clusters as Supported Catalysts for Hydrogenation; 2.4 Summary; References; 3 Hydrogen Separation Membranes of Polymeric Materials; 3.1 Overview of Hydrogen Separation Membrane Technology; 3.2 Principles of Hydrogen Separation Membrane; 3.2.1 Gas Separation Mechanism; 3.2.2 Gas Separation Mechanism for Polymer Membrane; 3.2.3 Gas Separation Performance Evaluation; 3.3 Polymer Materials and Membrane Structure
3.3.1 Polymeric Membrane Material for Hydrogen Separation3.3.1.1 Polyimide (PI); 3.3.1.2 Polybenzimidazole (PBI); 3.3.2 Hydrogen Separation Membrane Structure; 3.3.2.1 Dense Membrane; 3.3.2.2 Porous Membrane; 3.3.2.3 Hybrid Microporous Membrane; Mixed Matrix Membrane; Polymer Intrinsic Microporosity; 3.4 Industrial Application of Hydrogen Separation Polymer Membrane; 3.4.1 Current Industrial Development; 3.4.2 Membrane Fabrication Technique; 3.4.3 Modules and System Configuration; 3.5 Summary and Next Generation Hydrogen Separation Membrane; References; 4 Hydrogen Storage Technologies