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Materials for sustainable energy /

Materials for Sustainable Energy, Volume 72, the latest release in the Advances in Inorganic Chemistry series presents timely and informative summaries on the current progress in a variety of subject areas. In this volume, concise, authoritative reviews provide updates on the photocatalytic generati...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Eldik, Rudi van (Editor ), Macyk, Wojciech (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [Place of publication not identified] : Academic Press, 2018.
Colección:Advances in inorganic chemistry ; v. 72.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Inorganic Chemistry: Materials for Sustainable Energy; ADVISORY BOARD; Advances in Inorganic Chemistry: Materials for Sustainable Energy; Copyright; Contents; CONTRIBUTORS; PREFACE; One
  • Defect Engineering of Photosensitive Oxide Materials. Example of TiO2 Solid Solutions; 1. INTRODUCTION; 2. PRESENT STATE AND FUTURE CHALLENGES; 2.1 Solar Hydrogen Fuel; 2.2 Water Purification; 3. IMPACT OF STRUCTURAL DEFECTS ON PROPERTIES AND PERFORMANCE OF ENERGY MATERIALS; 4. DEFECT CHEMISTRY OF TITANIUM DIOXIDE; 4.1 Basic Defect Equilibria; 4.2 Defect Diagrams
  • 4.3 Charge Transport4.3.1 Electronic Charge Carriers; 4.3.2 Transport During Equilibration; 4.3.2.1 Simultaneous Transport of Several Lattice Species; 4.3.2.2 Impact of Titanium Vacancies on Nonstoichiometry; 4.3.2.3 Experimental Data on Chemical Diffusion for TiO2; 4.3.2.4 In-Doped TiO2; 4.3.2.5 Pure TiO2; 4.3.2.6 Nb-Doped TiO2; 5. EFFECT OF OXYGEN ACTIVITY ON SEMICONDUCTING PROPERTIES OF TIO2; 5.1 Intrinsic Defects; 5.2 Extrinsic Defects; 6. JONKER FORMALISM; 7. SURFACE SEGREGATION; 7.1 Regular Solution Approach; 7.2 Single Solute Segregation. Example of Cr-Doped TiO2
  • 7.3 Competitive Segregation. Example of TiO2 Co-doped With Niobium and Indium7.3.1 Indium-Doped TiO2; 7.3.2 Niobium-Doped TiO2; 7.3.3 TiO2 Co-doped With Indium and Niobium; 8. OPTICAL PROPERTIES; 9. LIGHT-INDUCED WATER OXIDATION; 9.1 Total and Partial Water Oxidation; 9.2 Partial Water Oxidation; 9.2.1 Nb-doped TiO2; 9.2.2 Ta-doped TiO2; 9.2.3 Cr-doped TiO2; 9.3 Total Water Oxidation; 10. RESEARCH STRATEGY IN PROCESSING TIO2-BASED PHOTOSENSITIVE SEMICONDUCTORS; 10.1 Concentration of Surface Active Sites; 10.1.1 Fermi Level; 10.1.2 Charge Transport; 10.1.3 Electronic Structure
  • 10.1.4 Alignment of Band Edges With Energy Levels of Redox Couple11. CONCLUSIONS; HIGHLIGHTS; REFERENCES; Two
  • Visible Light-Responsive Photocatalysts-From TiO2 to Carbon Nitrides and Boron Carbon Nitride; 1. INTRODUCTION; 2. BRIEF HISTORY OF THE PROGRESS IN METAL OXIDES (TIO2) PHOTOCATALYSTS; 3. GRAPHITIC CARBON NITRIDE (G-C3N4); 3.1 Design and Optimization of g-C3N4; 3.1.1 Nano-structure Design; 3.1.2 Crystalline-Structure Engineering; 3.1.3 Elemental Doping; 3.1.4 Copolymerization; 3.1.5 Construction of Carbon Nitride Colloids; 3.2 Construction of g-C3N4-Based Nano-composites
  • 3.3 Photocatalytic Application of g-C3N4 Nano-material3.3.1 Photocatalytic Water Splitting With g-C3N4 Nano-material; 3.3.2 Water Splitting to Produce H2; 3.3.3 Water Splitting to Produce O2; 3.3.4 Overall Water Splitting to Produce H2 and O2; 3.3.5 Photocatalytic Fixation of CO2; 3.3.6 Direct Oxidation of Benzene to Phenol; 3.3.7 Photocatalytic Oxidation of Alcohols; 3.3.8 Photocatalytic Degradation of Organic Pollutants; 4. TERNARY BORON CARBON NITRIDE; 5. CONCLUSION AND PERSPECTIVES; ACKNOWLEDGMENTS; REFERENCES; Three
  • Photocatalytic Synthesis of Chemicals; 1. INTRODUCTION