North | Sustainable Catalysis | Buch | 978-1-78262-056-3 | sack.de

Buch, Englisch, Band 38-39, 816 Seiten, Format (B × H): 160 mm x 239 mm, Gewicht: 1497 g

Reihe: Green Chemistry Series

North

Sustainable Catalysis


With Non-Endangered Metals, Parts 1 and 2

Buch, Englisch, Band 38-39, 816 Seiten, Format (B × H): 160 mm x 239 mm, Gewicht: 1497 g

Reihe: Green Chemistry Series

ISBN: 978-1-78262-056-3
Verlag: RSC Publishing

Catalysis is a fundamentally sustainable process which can be used to produce a wide range of chemicals and their intermediates. Focussing on those catalytic processes which offer the most sustainability, this two-part book explores recent developments in this field, as well as examining future challenges. Focussing on catalysis through non-endangered metals, chapters are dedicated to the most important sustainable metals in catalysis: titanium, iron and aluminium. Remaining chapters examine several other important metals. Green aspects of the various reactions are also discussed, such as atom economy and use of green solvents and other reaction conditions. Together with "Sustainable Catalysis: Without Metals or Other Endangered Elements", these books examine the progress in sustainable catalysis in all areas of chemistry, and are an important reference for researchers working in catalysis and green chemistry.
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Autoren/Hrsg.

North, Michael

Fachgebiete

Weitere Infos & Material

Introduction; Alkali metal (Li, Na, K)-based Catalysts; Magnesium and Calcium-based Catalysts; Scandium and Yttrium-based Catalysts; Titanium-based Catalysts for Non-asymmetric Synthesis of Small Molecules; Titanium-based Catalysts for Polymer Synthesis; Titanium-based Catalysts for Asymmetric Transformations; Zirconium-based Catalysts; Vanadium and Niobium-based Catalysts; Chromium-based Catalysts; Manganese-based Catalysts; Metallic Iron, Iron Oxides and Iron Salt-based Catalysts; Iron Complex-based Catalysts; Nickel-based Catalysts; Copper-based Catalysts; Gold-based Catalysts; Cadmium-based Catalysts; Aluminium-based Catalysts for Non-asymmetric Transformations; Aluminium-based Catalysts for Asymmetric Transformations; Thallium-based Catalysts; Tin-based Catalysts; Lead-based Catalysts; Index.

Clark, James H
James H Clark is Professor of Chemistry at the University of York, and is Founding Director of the Green Chemistry Centre of Excellence and the Bio-renewables Development Centre. He started the award-winning company Starbons Ltd and he is now involved in commercialisation of novel bio-based solvents and new green technologies. He was founding scientific editor of the world-leading journal Green Chemistry. His research has led to numerous awards including Honorary Doctorates from universities in Belgium, Germany and Sweden. He has Visiting Professorships in South Africa and China, and was recently appointed as Chair-Professor at Fudan University. He has published over 500 articles (h index over 72) and written or edited over 20 books and is Editor-in-chief of the RSC Green Chemistry book series. He has received numerous awards and distinctions including the 2018 Green Chemistry prize.

North, Michael
Professor North is Chair of Green Chemistry at the University of York and is joint chair of the EPSRC-supported CO2Chem Grand Challenge Network. His research interests are mostly in the area of green organic chemistry, especially sustainable catalysis and the utilization of sustainable feedstocks including CO2. He has published more than 190 papers and holds six patents.

Hunt, Andrew
Andrew J Hunt is the Scientific Leader of the alternative solvent technology platform at the Green Chemistry Centre of Excellence, the University of York, UK. His research interests include elemental sustainability, solvents, supercritical fluids, waste utilisation and biorefineries.

Michael North holds the Chair in Green Chemistry at the University of York. He is also Joint Chair of the CO2Chem, an EPSCR-supported Grand Challenge Network examining CO2 chemistry. His research interests are in green organic chemistry, especially sustainable catalysis and the utilization of sustainable feedstocks including CO2.

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