Molecular Solar Fuels
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The US Department of Energy Basic Sciences Workshops in 2005 on 'Solar Energy Utilization' and in 2007 on 'Catalysis for Energy' identified the development of solar fuels as a key, carbon-neutral, energy resource for the future. Hydrogen is a promising example as the harmless waste product, on combustion with oxygen, is water. The energy released can be coupled to electrical current generation or the reduction of carbon compounds such as carbon dioxide. If hydrogen could be readily produced from water using solar energy, then an ideal fuel cycle would be possible. The main aim of the book is…mehr

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Produktbeschreibung
The US Department of Energy Basic Sciences Workshops in 2005 on 'Solar Energy Utilization' and in 2007 on 'Catalysis for Energy' identified the development of solar fuels as a key, carbon-neutral, energy resource for the future. Hydrogen is a promising example as the harmless waste product, on combustion with oxygen, is water. The energy released can be coupled to electrical current generation or the reduction of carbon compounds such as carbon dioxide. If hydrogen could be readily produced from water using solar energy, then an ideal fuel cycle would be possible. The main aim of the book is to present the latest knowledge and chemical prospects in developing hydrogen as a solar fuel. Using oxygenic photosynthesis and hydrogenase enzymes for bio-inspiration, this book presents the strategies for developing photocatalysts to produce a molecular solar fuel. Topics covered include the molecular mechanisms for the capture of light, photochemical conversion to chemical potential, and the storage of energy in chemical bonds, both in the natural systems and the synthetic chemical systems. The book is written by experts from various fields working on the biological and synthetic chemical side of molecular solar fuels to facilitate advancement in this area of research.
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Autorenporträt
Tom Wydrzynski is a Professor and Head of the Photobioenergetics Group at the ANU (Australian National University) School of Biology where he conducts research on natural and artificial photosynthesis. He is on the Editorial Boards of Photosynthesis Research and Biochimica et Biophysica Acta - Bioenergetics. Professor Wydrzynski received his BA in Biology from the University of Missouri at St. Louis and a PhD in Plant Biology from the University of Illinois at Urbana-Champaign. He subsequently held research posts at the Max Volmer Institute for Biophysical and Physical Chemistry in Berlin, the Standard Oil Company of Indiana (AMOCO Corporation) in Illinois, and the Lawrence Berkeley Laboratory in California. Associate Professor Hillier has authored over forty journal articles, book chapters and conference proceedings. He has also presented his work at a variety of international conferences. Warwick Hillier has a PhD from the ANU and has been a visiting scientist at the National Renewable Energy Laboratory in Golden, USA and a NIH Postdoctoral Research Associate in the Deptartment of Chemistry at Michigan State University. Warwick Hillier is currently an Associate Professor at the ANU (Australian National University) School of Biology. He works on natural and artificial photosynthesis using spectroscopy and molecular biology to study basic problems in electron and proton transfer reactions.