Solvents as Reagents in Organic Synthesis
160,99 €*
Nach dem Kauf zum Download bereit Ein Downloadlink ist wenige Minuten nach dem Kauf im eigenen Benutzerprofil verfügbar.
ISBN/EAN:
9783527805631
Written by highly renowned and experienced authors, this is the only reference on the application of solvents as reagents.
Clearly structured, the text describes various methods for the activation and reaction of these small molecules, highlighting the synthetic opportunities as well as process-oriented advantages. To this end, all relevant types of solvents are covered separately and emphasized with numerous synthetic examples, while taking care to explain applications so as to avoid undesired side reactions.
The result is a unique resource for every synthetic chemist and reaction engineer in industry and academia working on the methodical optimization of synthetic transformations.
Xiao-Feng Wu is Professor at Zhejiang Sci-Tech University (ZSTU) in China and also leads a research group at the Leibniz-Institute for Catalysis in Rostock (Germany). He studied chemistry at ZSTU, where he obtained his bachelor's degree in science in 2007. In the same year, he went to Universite de Rennes 1 (France) to work with Prof. C. Darcel. He obtained his master's degree there in 2009 and then joined the group of Prof. M. Beller at the Leibniz-Institute for Catalysis in Rostock. He completed his PhD thesis in January 2012 and was promoted to Full Professor at ZSTU in 2013. In March 2017, Xiao-feng defended his Habilitation successfully in Rennes 1 University (France). His research interests include carbonylation reactions, heterocycles synthesis, and the catalytic application of cheap metals. He has already authored 10 books, 15 chapters and >180 publications in international journals.
Clearly structured, the text describes various methods for the activation and reaction of these small molecules, highlighting the synthetic opportunities as well as process-oriented advantages. To this end, all relevant types of solvents are covered separately and emphasized with numerous synthetic examples, while taking care to explain applications so as to avoid undesired side reactions.
The result is a unique resource for every synthetic chemist and reaction engineer in industry and academia working on the methodical optimization of synthetic transformations.
Xiao-Feng Wu is Professor at Zhejiang Sci-Tech University (ZSTU) in China and also leads a research group at the Leibniz-Institute for Catalysis in Rostock (Germany). He studied chemistry at ZSTU, where he obtained his bachelor's degree in science in 2007. In the same year, he went to Universite de Rennes 1 (France) to work with Prof. C. Darcel. He obtained his master's degree there in 2009 and then joined the group of Prof. M. Beller at the Leibniz-Institute for Catalysis in Rostock. He completed his PhD thesis in January 2012 and was promoted to Full Professor at ZSTU in 2013. In March 2017, Xiao-feng defended his Habilitation successfully in Rennes 1 University (France). His research interests include carbonylation reactions, heterocycles synthesis, and the catalytic application of cheap metals. He has already authored 10 books, 15 chapters and >180 publications in international journals.
Autor: | Xiao-Feng Wu |
---|---|
EAN: | 9783527805631 |
eBook Format: | ePUB |
Sprache: | Englisch |
Produktart: | eBook |
Veröffentlichungsdatum: | 28.09.2017 |
Untertitel: | Reactions and Applications |
Kategorie: | |
Schlagworte: | <p>solvents DCM DMF DMSO THF aceton alcohol alkane chloroform dioxane ethanol ether ethyl acetate formamide hexane methanol methylenechloride octane pentane propanol reactant reagent sulfoxide synthesis toluene xylene |
Anmelden
Möchten Sie lieber vor Ort einkaufen?
Haben Sie weiterführende Fragen zu diesem Buch oder anderen Produkten? Oder möchten Sie einfach doch lieber in der Buchhandlung stöbern? Wir sind gern persönlich für Sie da und beraten Sie auch telefonisch.
Bergische Buchhandlung R. Schmitz
Wetterauer Str. 6
42897 Remscheid-Lennep
Telefon: 02191/668255
Mo – Fr10:00 – 18:00 UhrSa09:00 – 13:00 Uhr