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Description
(Short description)
Die Darstellung und die Charakterisierung von Materialien, die in der polymerunterstützten Synthese eingesetzt werden, wird hier erstmals ausführlich in einem Band beschrieben. Neben den klassischen Polymeren und ihren Anwendungen in der homogenen, heterogenen und micellaren Katalyse sprechen die Autoren auch moderne Varianten an, beispielsweise enzymlabile Linker. Anschaulich wird gezeigt, wie man Reinigungsprozesse vereinfachen und Abfall vermeiden kann. Eine Fülle nützlicher Informationen-für Neueinsteiger und gestandene Fachleute gleichermaßen -, die eine zeitraubende Recherche in der Originalliteratur erspart!
(Table of content)
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
(Table of content)
Aus dem Inhalt:
- 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