Recoverable and Recyclable Catalysts
(Sprache: Englisch)
Drawing on international research, Recoverable and Recyclable Catalysts provides the essentials on recoverable and recyclable catalysts. This practical guide explores the general principles of catalyst recovery and recycling, catalysts on insoluble or...
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Produktinformationen zu „Recoverable and Recyclable Catalysts “
Klappentext zu „Recoverable and Recyclable Catalysts “
Drawing on international research, Recoverable and Recyclable Catalysts provides the essentials on recoverable and recyclable catalysts. This practical guide explores the general principles of catalyst recovery and recycling, catalysts on insoluble or soluble supports, thermoresponsive catalysts, self-supported catalysts, and more. Each chapter combines basic general principles, practical information on the design and synthesis of catalysts, and strategies for catalyst recovery. The book presents a comparison of several different catalytic systems. This textbook is essential for students who want to improve the efficiency and environmental acceptability of industrial processes
Drawing on international research, Recoverable and Recyclable Catalysts provides the essentials on recoverable and recyclable catalysts. This practical guide explores the general principles of catalyst recovery and recycling, catalysts on insoluble or soluble supports, thermoresponsive catalysts, self-supported catalysts, and more. Each chapter combines basic general principles, practical information on the design and synthesis of catalysts, and strategies for catalyst recovery. The book presents a comparison of several different catalytic systems. This textbook is essential for students who want to improve the efficiency and environmental acceptability of industrial processes
Inhaltsverzeichnis zu „Recoverable and Recyclable Catalysts “
Preface.Acknowledgements.
Contributors.
1 The Experimental Assay of Catalyst Recovery: General Concepts (John A. Gladysz).
1.1 Introduction.
1.2 Catalyst Precursor vs Catalyst.
1.3 Catalyst vs Catalyst Resting State.
1.4 Catalyst Inventory: Loss Mechanisms.
1.5 Evaluation of Catalyst Recovery.
1.6 Prospective.
References.
2 Surface-functionalized Nanoporous Catalysts for Renewable Chemistry (Brian G. Trewyn, Hung-Ting Chen and Victor S.-Y. Lin).
2.1 Introduction.
2.2 Immobilization Strategies of Heterogeneous Catalysts.
2.3 Efficient Heterogeneous Catalysts with Enhanced Reactivity and Selectivity with Functionality.
2.4 Other Heterogeneous Catalyst Systems on Nonsilica Supports.
2.5 Conclusion.
References.
3 Insoluble Resin-supported Catalysts (Gang Zhao and Zhuo Chai).
3.1 Introduction.
3.2 Transition Metal Catalyzed C_C Bond Formation Reactions.
3.3 Oxidation.
3.4 Reduction.
3.5 Organocatalyzed Reactions.
3.6 Annulation Reactions.
3.7 Miscellaneous.
3.8 Conclusion.
References.
4 Catalysts Bound to Soluble Polymers (Tamilselvi Chinnusamy, Petra Hilgers and Oliver Reiser).
4.1 Introduction.
4.2 Soluble Supports - General Considerations.
4.3 Recent Developments of Soluble Polymer-supported Catalysts.
4.4 Recent Examples for Reactions Promoted by Catalysts Bound to Soluble Polymers.
4.5 Conclusion.
List of Abbreviations.
References.
5 Polymeric, Recoverable Catalytic Systems (Qiao-Sheng Hu).
5.1 Introduction.
5.2 Polymeric Catalyst Systems.
5.3 Summary.
Acknowledgements.
References.
6 Thermomorphic Catalysts (David E. Bergbreiter).
6.1 Introduction.
6.2 Thermomorphic Catalyst
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Separation Strategies.
6.3 Hydrogenation Reactions Under Thermomorphic Conditions.
6.4 Hydroformylation Reactions Under Thermomorphic Conditions.
6.5 Hydroaminations Under Thermomorphic Conditions.
6.6 Pd-catalyzed Reactions Under Thermomorphic Conditions.
6.7 Polymerization Reactions Under Thermomorphic Conditions.
6.8 Organocatalysis Under Thermomorphic Conditions.
6.9 Cu(I)-catalyzed 1,3-Dipolar Cycloadditions Under Thermomorphic Conditions.
6.10 Thermomorphic Hydrosilylation Catalysts.
6.11 Thermomorphic Catalytic Oxidations.
6.12 Conclusions.
References.
7 Self-supported Asymmetric Catalysts (Wenbin Lin and David J. Mihalcik).
7.1 Introduction.
7.2 Self-supported Asymmetric Catalysts Formed by Linking Catalytically Active Subunits via Metal-Ligand Coordination.
7.3 Self-supported Asymmetric Catalysts Formed by Post-synthetic Modifications of Coordination Polymers.
7.4 Self-supported Asymmetric Catalysts Formed by Linking Multitopic Chiral Ligands with Catalytic Metal Centers.
7.5 Conclusions and Outlook.
Acknowledgments.
References.
8 Fluorous Chiral Catalyst Immobilization (Tibor Soós).
8.1 Introduction.
8.2 Fluorous Chemistry and its Basic Recovery Concepts.
8.3 Application of Fluorous Chiral Catalysts.
8.4 Summary.
References.
9 Biphasic Catalysis: Catalysis in Supercritical CO2 and in Water (Simon L. Desset and David J. Cole-Hamilton).
9.1 Introduction.
9.2 Biphasic Catalysis.
9.3 Aqueous Biphasic Catalysis.
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6.3 Hydrogenation Reactions Under Thermomorphic Conditions.
6.4 Hydroformylation Reactions Under Thermomorphic Conditions.
6.5 Hydroaminations Under Thermomorphic Conditions.
6.6 Pd-catalyzed Reactions Under Thermomorphic Conditions.
6.7 Polymerization Reactions Under Thermomorphic Conditions.
6.8 Organocatalysis Under Thermomorphic Conditions.
6.9 Cu(I)-catalyzed 1,3-Dipolar Cycloadditions Under Thermomorphic Conditions.
6.10 Thermomorphic Hydrosilylation Catalysts.
6.11 Thermomorphic Catalytic Oxidations.
6.12 Conclusions.
References.
7 Self-supported Asymmetric Catalysts (Wenbin Lin and David J. Mihalcik).
7.1 Introduction.
7.2 Self-supported Asymmetric Catalysts Formed by Linking Catalytically Active Subunits via Metal-Ligand Coordination.
7.3 Self-supported Asymmetric Catalysts Formed by Post-synthetic Modifications of Coordination Polymers.
7.4 Self-supported Asymmetric Catalysts Formed by Linking Multitopic Chiral Ligands with Catalytic Metal Centers.
7.5 Conclusions and Outlook.
Acknowledgments.
References.
8 Fluorous Chiral Catalyst Immobilization (Tibor Soós).
8.1 Introduction.
8.2 Fluorous Chemistry and its Basic Recovery Concepts.
8.3 Application of Fluorous Chiral Catalysts.
8.4 Summary.
References.
9 Biphasic Catalysis: Catalysis in Supercritical CO2 and in Water (Simon L. Desset and David J. Cole-Hamilton).
9.1 Introduction.
9.2 Biphasic Catalysis.
9.3 Aqueous Biphasic Catalysis.
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Bibliographische Angaben
- 2009, 1. Auflage, 490 Seiten, Maße: 17,5 x 25,2 cm, Gebunden, Englisch
- Herausgegeben: Maurizio Benaglia
- Verlag: Wiley & Sons
- ISBN-10: 0470681950
- ISBN-13: 9780470681954
- Erscheinungsdatum: 22.03.2010
Sprache:
Englisch
Pressezitat
"This book is most appropriate for researchers or graduate students who are familiar with the area of asymmetric catalysis and seek to become more involved in this important area of research." (The Quarterly Review of Biology, 1 March 2011)"A substantial resource for those who do process development and scale-up work." ( Organic Chemistry Portal , March 2010)
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