Water Oxidation Catalysts, Volume 74, the latest release in the Advances in Inorganic Chemistry series, presents timely and informative summaries on current progress in a variety of subject areas. This acclaimed serial features reviews written by experts in the field, serving as an indispensable reference to advanced researchers. Users will find this to be a comprehensive overview of recent findings and trends from the last decade that covers various kinds of inorganic topics, ranging from theoretical oriented supramolecular chemistry, to the quest for accurate calculations of spin states in transition metals. …mehr
Water Oxidation Catalysts, Volume 74, the latest release in the Advances in Inorganic Chemistry series, presents timely and informative summaries on current progress in a variety of subject areas. This acclaimed serial features reviews written by experts in the field, serving as an indispensable reference to advanced researchers. Users will find this to be a comprehensive overview of recent findings and trends from the last decade that covers various kinds of inorganic topics, ranging from theoretical oriented supramolecular chemistry, to the quest for accurate calculations of spin states in transition metals.
After attending Grammar Schools, Colin D. Hubbard read Chemistry at the University of Sheffield in England, earning honours Bachelors, and Doctor of Philosophy degrees, the latter with R.G. Wilkins and S.F.A. Kettle. Postdoctoral Research followed at MIT and Cornell (G.G. Hammes) and the University of California, Berkeley, (J.F. Kirsch). He accepted a position as Assistant Professor of Chemistry at the University of New Hampshire, Durham in 1967, and proceeded to Associate, Full and Emeritus status. In 1994 he joined the group of Rudi van Eldik as Visiting Professor and Research Associate, first at the University of Witten-Herdecke and subsequently at the University of Erlangen-Nürnberg, Germany. From 1998 - 2001 he served as a Research Manager at Unilever Research, Colworth, England. Since 2002 he has been a co-editor for Advances in Inorganic Chemistry (Volumes 54, 61, 65, 68 & 70), and a writer of review articles principally on the application of high hydrostatic pressure in in
organic chemistry reactions for mechanism diagnosis. He has spent Sabbaticals at the University of Kent, Canterbury, England, (E.F. Caldin), the University of Alberta, Edmonton, Canada, (H.B. Dunford), the University of Leicester, England (J. Burgess) and the University of Seville, Spain, (F. Sanchez).
Inhaltsangabe
1. Artificial photosynthesis systems for catalytic water oxidationSheng Ye, Chunmei Ding and Can Li2. Insights into artificial water oxidation-A computational perspectiveMauro Schilling and Sandra Luber3. Water oxidation by manganese oxidesMina Tavakolian, Payam Salimi, Zahra Zand and Mohammad Mahdi Najafpour4. Water oxidation catalysis with well-defined molecular iron complexesCarla Casadevall, Alberto Bucci, Miquel Costas and Julio Lloret-Fillol5.Mechanisms of water oxidation using ruthenium, cobalt, copper, and iron molecular catalystsAlexander Rene Parent, Takashi Nakazono, Yuta Tsubonouchi, Natsuki Taira and Ken Sakai6. Electrocatalytic materials design for oxygen evolution reactionJosué M. Gonçalves, Tiago A. Matias, Kalil C.F. Toledo and Koiti Araki7. Recent advances in electrodes modified with ruthenium complexes for electrochemical and photoelectrochemical water oxidationTong Yang, Hong Yin, Li-Hui Gao, Ke-Zhi Wang and Dongpeng Yan8. Plausible roles of carbonate in catalytic water oxidationAmir Mizrahi and Dan Meyerstein
1. Artificial photosynthesis systems for catalytic water oxidationSheng Ye, Chunmei Ding and Can Li2. Insights into artificial water oxidation-A computational perspectiveMauro Schilling and Sandra Luber3. Water oxidation by manganese oxidesMina Tavakolian, Payam Salimi, Zahra Zand and Mohammad Mahdi Najafpour4. Water oxidation catalysis with well-defined molecular iron complexesCarla Casadevall, Alberto Bucci, Miquel Costas and Julio Lloret-Fillol5.Mechanisms of water oxidation using ruthenium, cobalt, copper, and iron molecular catalystsAlexander Rene Parent, Takashi Nakazono, Yuta Tsubonouchi, Natsuki Taira and Ken Sakai6. Electrocatalytic materials design for oxygen evolution reactionJosué M. Gonçalves, Tiago A. Matias, Kalil C.F. Toledo and Koiti Araki7. Recent advances in electrodes modified with ruthenium complexes for electrochemical and photoelectrochemical water oxidationTong Yang, Hong Yin, Li-Hui Gao, Ke-Zhi Wang and Dongpeng Yan8. Plausible roles of carbonate in catalytic water oxidationAmir Mizrahi and Dan Meyerstein
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