The need to improve both the efficiency and environmental acceptability of industrial processes is a driving force towards the development of recoverable and recyclable catalysts, for pharmaceuticals, agrochemicals commodity, specialty and fine chemicals. Drawing on international research, this book serves as a practical guide for the use of recoverable and recyclable catalysts. It includes an introductory chapter on the general principles of catalyst recovery and recycling, and follows with chapters on catalysts on insoluble or soluble supports, thermoresponsive catalysts, self-supported catalysts, perfluorous catalytic systems, biphasic systems, recoverable organic catalysts, microencapsulated catalysts, flow/membrane reactors, and microreactor technologies. Each chapter combines basic general principles, practical information on the design and synthesis of catalysts, and strategies for catalyst recovery. The book concludes with a comparison of several different catalytic systems, so the reader can easily compare a given catalysts, and the positive and negative features of each approach.
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ISBN-13
978-1-4051-8428-1 (9781405184281)
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Schweitzer Klassifikation
Maurizio Benaglia is Associate Professor at the Department of Organic and Industrial Chemistry, University of Milan, Italy.
Chapter 1: Introduction to Recyclable catalysts: general principles of catalyst recovery and recycle.Potential author: J. Galdysz or Pierre Jacobs.Chapter 2: Catalysts immobilised onto inorganic materials. .Potential author: B.M. Choudary or Roger Sheldon.Chapter 3: Insoluble resins supported catalysts.Potential author: Philip Hodge or Gang Zhao.Chapter 4: Catalysts bound to soluble organic polymers.Potential author: Albert Chan or Oliver Reiser or Carsten Bolm.Chapter 5: Polymeric, recoverable catalytic systems.Potential author: Q.-S- Hu or Sasai.Chapter 6: Thermoresponsive catalysts.Potential author: David Bergbreiter or Shiro Ikegami.Chapter 7: Self-supported catalysts.Potential author: Wenbin Lin.Chapter 8: Use of perfluorous catalytic systems.Potential author: J. Galdysz or Dennis Sinou.Chapter 9: Biphasic catalysis: catalysis in supercritical CO2 and in water.Potential author: W. Leitner.Chapter 10: Ionic liquids in catalysis.Potential author: J. Xiao or L. Gao.Chapter 11: Recoverable organic catalysts.Potential author: Franco CozziChapter 12: Microencapsulated catalysts.Potential author: S. Kobayashi or N. Leadbetter.Chapter 13: Flow reactors and membrane reactors .Potential author: A. Kirschning,.Chapter 14: Microreactors: a technology for the modern synthetic chemist.Potential author: Seeberger or D.T McQuade.Chapter 15: General Considerations: a comparison of the main features of different materials and applications.Potential author: M. Benaglia or F. Cozzi.
