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Title Nanostructured materials for next-generation energy storage and conversion : hydrogen production, storage, and utilization / Ying-Pin Chen, Sajid Bashir, Jingbo Louise Liu, editors.
Imprint Berlin : Springer, 2017.

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 Internet  Electronic Book    AVAILABLE
Description 1 online resource (xx, 349 pages) : illustrations (some color)
Bibliog. Includes bibliographical references and index.
Note Available only to authorized UTEP users.
Print version record.
Subject Hydrogen as fuel.
Nanostructured materials.
Contents 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.
Summary Volume 1 of a 4-volume series is a concise, authoritative and an eminently readable and enjoyable experience related to hydrogen production, storage and usage for portable and stationary power. Although the major focus is on hydrogen, discussion of fossil fuels and nuclear power is also presented where appropriate. This monograph is written by recognized experts in the field, and is both timely and appropriate as this decade will see application of hydrogen as an energy carrier, for example in transportation sector. The world's reliance on fossil fuels is due to the ever growing need for energy to sustain life and on-going progress; however exploitation also brings consequences such as emission of carbon, nitrogen and sulfur dioxides into the atmosphere. The collective influence of these photochemical gases is production of acid rain and an alternation of global temperatures, leading to record high temperatures in many parts of the world. The fossil fuel is unsustainable and thus there is a critical need for alternative sustainable energy resources. One universal energy carrier is hydrogen, which is the focus of this volume. This book is suitable for those who work in the energy field as technical experts, including engineers and scientists, as well as managers, policy and decision-makers, environmentalists and consultants. Students and practitioners such as lectures, teachers, legislators and their aids in the field of energy will find this book invaluable and a practical handbook or guide in the field of sustainable energy with emphasis on hydrogen as an energy carrier.
Other Author Chen, Ying-Pin.
Liu, Jingbo Louise.
Bashir, Sajid, 1967-
Other Title Print version: Nanostructured materials for next-generation energy storage and conversion. Berlin : Springer, 2017 9783662535127 3662535122