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Informationen zum Autor Yun Hang Hu is Associate Professor in the Department of Materials Science and Engineering at Michigan Technological University. Klappentext This book contains 16 peer-reviewed chapters that cover various aspects of CO2 conversion and utilization. Zusammenfassung Carbon dioxide is a major greenhouse gas. There are several technological options for sequestration of CO2 into one of the other global pools, including oceanic injection, geological injection, and scrubbing and mineral carbonation. The cost and leakage are principal issues of the geological sequestration which need to be resolved. For those reasons, the utilization of CO2 is being considered as an attractive solution to solve CO2 issues. To promote research anddevelopment in CO2 areas, we organized a symposium on CO2 conversion and utilization as a part of the 238th American Chemical Society (ACS) National Meeting, August 16-20, 2009, Washington, DC. This symposium was sponsored by the ACS Division of Fuel Chemistry. This book was developed on this ACSsymposium. This book contains 16 peer-reviewed chapters that cover various aspects of CO2 conversion and utilization. This ACS book focuses on the following topics: application of solar energy for CO2 conversion (Chapters 1-3), synthesis of organic compounds from CO2 (Chapters 4-9), CO2 reforming of methane into synthesis gas (Chapters 10-12), CO2 adsorption and absorption (Chapters 13-15), and chemical lungs for CO2 conversion into oxygen (Chapter 16). Most of those chapters were developed from ACSpapers presented at the symposium and others were from invited contributors in the related research areas. All chapters were contributed by active research groups from universities, national laboratories, or industrial research organizations worldwide. Inhaltsverzeichnis Contents; Preface; 1. Synthesis and Characterization of Ferrite Materials for Thermochemical CO2 Splitting Using Concentrated Solar Energy; Andrea Ambrosini! Eric N. Coker! Mark A. Rodriguez! Stephanie Livers! Lindsey R. Evans! James E. Miller! and Ellen B. Stechel; 2. Photocatalytic Reduction of CO2 Using H2 as Reductant over Solid Base Photocatalysts; Kentaro Teramura and Tsunehiro Tanaka; 3. CO2 Splitting via the Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions; Peter G. Loutzenhiser! Anton Meier! Daniel Gstoehl! and Aldo Steinfeld; 4. Hydrothermal Conversion of CO2 into Value-Added Products: A Potential Technology for Improving Global Carbon Cycle; Fangming Jin! Zhibao Huo! Xu Zeng! and Heiji Enomoto; 5. Electrocatalytic Reduction of CO2 to Small Organic Molecule Fuels on Metal Catalysts; Wenzhen Li; 6. CO2 Chemistry at Nankai Group: Catalytic Conversion of CO2 into Value-Added Chemicals; Liang-Nian He! Zhen-Zhen Yang! ...
