The Earth’s natural resources are finite and easily compromised by contamination from industrial chemicals and byproducts from the degradation of consumer products. The growing field of green and sustainable chemistry seeks to address this through the development of products and processes that are environmentally benign while remaining economically viable. Inorganic chemistry plays a critical role in this endeavor in areas such as resource extraction and isolation, renewable energy, catalytic processes, waste minimization and avoidance, and renewable industrial feedstocks.
Sustainable Inorganic Chemistry presents a comprehensive overview of the many new developments taking place in this rapidly expanding field, in articles that discuss fundamental concepts alongside cutting-edge developments and applications. The volume includes educational reviews from leading scientists on a broad range of topics including: inorganic resources, sustainable synthetic methods, alternative reaction conditions, heterogeneous catalysis, photocatalysis, sustainable nanomaterials, renewable and clean fuels, water treatment and remediation, waste valorization and life cycle sustainability assessment.
The content from this book will be added online to the Encyclopedia of Inorganic and Bioinorganic Chemistry.
Circa l’autore
David Atwood joined the chemistry department at the University of Kentucky faculty as an Associate Professor in 1998. He has over 160 publications, 10 patents, and serves on numerous editorial boards, including the Encyclopedia of Inorganic and Bioinorganic Chemistry. He is the founding editor and editor-in-chief of the journal Main Group Chemistry. His research interests include detection and removal of heavy metal contaminants such as mercury, cadmium and lead, from the environment, the preparation of nanoparticulate metal oxides, prevention of aluminum alloy oxidation, and the synthesis of new Lewis acid compounds to effect new reactions, such as the breaking of phosphate esters bonds like those found in nerve gas agents and pesticides and the destruction of methyl-t-butyl ether (MTBE) a widespread water contaminant.
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