Liquid Phase Aerobic Oxidation Catalysis
| Autor: | Shannon S. Stahl, Paul L. Alsters |
|---|---|
| EAN: | 9783527690152 |
| eBook Format: | ePUB/PDF |
| Sprache: | Englisch |
| Produktart: | eBook |
| Veröffentlichungsdatum: | 12.07.2016 |
| Untertitel: | Industrial Applications and Academic Perspectives |
| Kategorie: | |
| Schlagworte: | catalyst copper hydrogen peroxide industry palladium process design renewable feedstocks |
138,99 €*
Versandkostenfrei
Die Verfügbarkeit wird nach ihrer Bestellung bei uns geprüft.
Bücher sind in der Regel innerhalb von 1-2 Werktagen abholbereit.
The first book to place recent academic developments within the context of real life industrial applications, this is a timely overview of the field of aerobic oxidation reactions in the liquid phase that also illuminates the key challenges that lie ahead.
As such, it covers both homogeneous as well as heterogeneous chemocatalysis and biocatalysis, along with examples taken from various industries: bulk chemicals and monomers, specialty chemicals, flavors and fragrances, vitamins, and pharmaceuticals. One chapter is devoted to reactor concepts and engineering aspects of these methods, while another deals with the relevance of aerobic oxidation catalysis for the conversion of renewable feedstock.
With each chapter written by a team of academic and industrial researchers, this is a valuable reference for synthetic and catalytic chemists at universities as well as those working in the pharmaceutical and fine chemical industries seeking a better understanding of these reactions and how to design large scale processes based on this technology.
Shannon Stahl is a Professor of Chemistry at the University of Wisconsin-Madison, USA, since 1999. After undergraduate studies at the University of Illinois at Urbana-Champaign, USA, he attended the California Institute of Technology, USA, for doctoral studies. He worked on Pt-catalyzed oxidation of methane to methanol in the laboratory of Prof. John E. Bercaw and obtained his Ph.D. in 1997. From 1997-1999, he conducted postdoctoral research in the lab of Prof. Stephen J. Lippard at Massachusetts Institute of Technology, USA, investigating the enzyme methane monooxygenase. He has published >120 research articles and is the recipient of numerous awards, including the Humboldt Senior Research Award, ACS Cope Scholar Award, Sloan Research Fellowship, and he is a Fellow of the AAAS. His research group specializes in the development and mechanistic characterization of catalytic aerobic oxidation reactions.
Paul Alsters is a Senior Scientist at DSM Innovative Synthesis B.V. (Geleen, The Netherlands). He received his Ph.D. at the University of Utrecht (The Netherlands) in 1992, working on C-O coupling reactions of organopalladium compounds under the guidance of Prof. G. van Koten. He did postdoctoral work on asymmetric titanium mediated nucleophilic additions to aldehydes in the laboratory of R.O. Duthaler at Ciba-Geigy in Basel (Switzerland). He joined DSM in 1993. His main research areas of interest are route scouting aiming at scalable break-through methods for new or existing products, and liquid phase catalysis, with an emphasis on organocatalysis and oxidation catalysis. He is the (co-)author of >60 articles and (co-)inventor of >20 patents.
As such, it covers both homogeneous as well as heterogeneous chemocatalysis and biocatalysis, along with examples taken from various industries: bulk chemicals and monomers, specialty chemicals, flavors and fragrances, vitamins, and pharmaceuticals. One chapter is devoted to reactor concepts and engineering aspects of these methods, while another deals with the relevance of aerobic oxidation catalysis for the conversion of renewable feedstock.
With each chapter written by a team of academic and industrial researchers, this is a valuable reference for synthetic and catalytic chemists at universities as well as those working in the pharmaceutical and fine chemical industries seeking a better understanding of these reactions and how to design large scale processes based on this technology.
Shannon Stahl is a Professor of Chemistry at the University of Wisconsin-Madison, USA, since 1999. After undergraduate studies at the University of Illinois at Urbana-Champaign, USA, he attended the California Institute of Technology, USA, for doctoral studies. He worked on Pt-catalyzed oxidation of methane to methanol in the laboratory of Prof. John E. Bercaw and obtained his Ph.D. in 1997. From 1997-1999, he conducted postdoctoral research in the lab of Prof. Stephen J. Lippard at Massachusetts Institute of Technology, USA, investigating the enzyme methane monooxygenase. He has published >120 research articles and is the recipient of numerous awards, including the Humboldt Senior Research Award, ACS Cope Scholar Award, Sloan Research Fellowship, and he is a Fellow of the AAAS. His research group specializes in the development and mechanistic characterization of catalytic aerobic oxidation reactions.
Paul Alsters is a Senior Scientist at DSM Innovative Synthesis B.V. (Geleen, The Netherlands). He received his Ph.D. at the University of Utrecht (The Netherlands) in 1992, working on C-O coupling reactions of organopalladium compounds under the guidance of Prof. G. van Koten. He did postdoctoral work on asymmetric titanium mediated nucleophilic additions to aldehydes in the laboratory of R.O. Duthaler at Ciba-Geigy in Basel (Switzerland). He joined DSM in 1993. His main research areas of interest are route scouting aiming at scalable break-through methods for new or existing products, and liquid phase catalysis, with an emphasis on organocatalysis and oxidation catalysis. He is the (co-)author of >60 articles and (co-)inventor of >20 patents.