This is the first book to describe the synthesis and characterization of the materials used in polymer supported synthesis. The authors cover not only the classical polymers and their use in homogeneous, heterogeneous and micellar catalysis, but also such new developments as "enzyme labile linkers", illustrating how to simplify the purification process and avoid waste. The result is a wealth of useful information for beginners and experts alike in one handy reference, removing the need for difficult and time consuming research among the literature.
Rezensionen / Stimmen
The book is not only comprehensive in coverage, but well written and interesting to read .. the work described is very much at the forefront of current technology. (Applied Organometallic Chemistry, 4th July 2005) "The value of the book lies in the compact nature of the individual chapters, and the vast number of references." (Angewandte Chemie International Edition, Vol.43, No.46, 26th November 2004)
Sprache
Verlagsort
Zielgruppe
Maße
Höhe: 250 mm
Breite: 130 mm
Dicke: 15 mm
Gewicht
ISBN-13
978-3-527-60185-1 (9783527601851)
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Schweitzer Klassifikation
Michael R. Buchmeiser was born in Austria and received his ph.D. in Inorganic Chemistry at the University of Innsbruck, Austria. He then spent one year at MIT as Post Doctoral Fellow within the group of R.R. Schrock. In 1995 he accepted a position as Assistant Professor at the University of Innsbruck where he was appointed Associate Professor for Macromolecular Chemistry in 1998. His research interest mainly focus on transition metal catalyzed polymerizations, homogeneous and heterogeneous catalysis as well as opto electronic applications of smart polymers.
Structure, Morphology, Physical Formats and Characterization of Polymer Supports Supported Reagents and Scavengers in Multi Step Organic Synthesis Organic Synthesis on Polymeric Supports Solid Phase Bound Catalysts: Properties and Applications Soluble Polymers as Catalyst and Reagent Platforms: Liquid Phase Methodologies Polymers for Micellar Catalysis Dendritic Polymers as High Loading Supports for Organic Synthesis and Catalysis Metathesis Based Polymers for Organic Synthesis and Catalysis New Strategies in the Synthesis of Grafted Supports Biocatalyzed Reactions on Polymeric Supports: Enzyme Labile Linker Groups Polymer Supported Olefin Metathesis Catalysts for Organic and Combinatorial Synthesis Monitoring and Optimizingn Organic Reactions Carried Out on Solid Support Polymeric Membranes for Integrated Reaction and Separation
