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Behr / Seidensticker / Vogt | Applied Homogeneous Catalysis | Buch | 978-3-527-35111-4 | sack.de

Buch, Englisch, 736 Seiten, Format (B × H): 214 mm x 274 mm, Gewicht: 1980 g

Behr / Seidensticker / Vogt

Applied Homogeneous Catalysis

A Tool for Sustainable Chemistry
2. Auflage 2025
ISBN: 978-3-527-35111-4
Verlag: Wiley-VCH GmbH

A Tool for Sustainable Chemistry

Buch, Englisch, 736 Seiten, Format (B × H): 214 mm x 274 mm, Gewicht: 1980 g

ISBN: 978-3-527-35111-4
Verlag: Wiley-VCH GmbH

One-stop reference on homogeneous catalysis, from general concepts through detailed examples and industrial applications

Accessible and richly illustrated, Applied Homogeneous Catalysis provides a concise overview of the broad field of homogeneous transition metal catalysis and its applications in the chemical industry. This newly revised and updated second edition puts special emphasis on green chemistry, sustainable resources, and processes.

The book is divided into five parts. Part I presents the basics of transition metal catalysis. Part II focuses on process engineering aspects. Part III provides details of the most important catalytic reactions. Part IV describes catalytic conversions closely related to classical homogeneous transition metal catalysis, such as nano-, electro-, photo- and organocatalysis. Part V covers new feedstocks and other topics, concluding with an outlook on future challenges of homogeneous catalysis.

The book contains numerous mechanistic details, technical information, and illustrative examples. The chapters are enlivened by various excursions that relate the content to everyday life or introduce important personalities. Didactically, the book is completed with learning objectives and take-home messages for each chapter, as well as more than 400 questions and answers for self-testing.

Written by a team of internationally renowned experts in the field, with a wealth of experience in industry and teaching, Applied Homogeneous Catalysis includes information on: - Economic importance of industrial homogeneously-catalyzed reactions and basics of organometallic chemistry, including types of bonds, elemental steps, and mechanisms
- Common approaches for separating the homogeneous catalyst from the products after the reaction and using combinatorial chemistry and high throughput screening to achieve optimal results
- Activating “inactive” molecules such as carbon dioxide and nitrogen, and harnessing homogeneous catalysis for feedstock diversification by recycling polymers or using renewables.

Providing expansive coverage of the subject, Applied Homogeneous Catalysis is an essential guide for researchers and professionals in the pharmaceutical, polymer, and fine and bulk chemicals industries working on catalysis or entering the field, as well as for Master’s and PhD students in organic chemistry, chemical engineering, and related fields.

Behr / Seidensticker / Vogt Applied Homogeneous Catalysis jetzt bestellen!

Autoren/Hrsg.

Behr, Arno
Seidensticker, Thomas
Vogt, Dieter

Fachgebiete

Weitere Infos & Material

FOREWORD
PREFACE
ABBREVIATIONS
 
INTRODUCTION:
Adhering to the 12 Principles of Green Chemistry: How Does Homogeneous Catalysis Contribute?
 
PART I: CHEMICAL BASICS
1. Definition, Variants and Examples: What Actually Is Catalysis?
2. A Brief History: Homogeneous Transition Metal Catalysis - A Young Science
3. Industrial Homogeneous Catalysis: What is the Economic Importance?
4. Definition of Important Terms: X, Y, S, STY, TON, TOF and more
5. Basics of Organometallic Chemistry: Bonds, Elementary Steps, and Mechanisms
6. Transition Metal Compounds: The "Captains" of Homogeneous Catalysis
7. Ligands: The "Helmsmen" of Homogeneous Catalysis
8. Solvents in Homogeneous Catalysis: The Reaction Medium
9. Enantioselective Catalysis: The "Special Case"
10. Thermodynamics of Homogeneous Catalysis: When Does a Chemical Reaction Run?
11. Kinetics of Homogeneous Catalysis: How Does the Reaction Proceed?
12. Overview of Spectroscopic Methods: Can We See into Homogeneous Catalysis?
 
PART II: PROCESS ENGINEERING FUNDAMENTALS
13. Reactor Types: Where Homogeneous Catalysis Actually Ooccurs
14. Overview of Catalyst Separation Techniques: How Catalyst and Product Go Their Separate Ways After the Reaction
15. Catalyst Separation by Membranes: A Barrier Between Products and Catalysts
16. Immobilisation on Solid Supports: From Homogeneity to Heterogeneity
17. Liquid-Liquid Multiphase Systems: The Smart Approach to Catalyst Separation
18. Switchable Multiphase Systems: Triggering Separation of Homogeneous Mixtures
19. Optimisation Strategies: Combinatorial Synthesis, Design of Experiments and High-Throughput Screening
20. Process Development in Miniplants: From Laboratory to Production
 
PART III: HOMOGENEOUSLY CATALYSED REACTION TYPES
21. An Overview of C-C-Bond Formation: A Guide Through the Jungle
22. Hydroformylation: The Industrial Route to Aldehydes and Alcohols
23. Carbonylations: The Versatile Insertions of Carbon Monoxide
24. Oligomerisation and Cyclo-Oligomerisation: The Conversion of Unsaturated Aliphatics into Short Chains or Medium-Sized Ring
25. Metathesis: A "Change-Your-Partners" Dance
26. Polymerisation: The Purposeful Assembly of Macromolecules
27. Telomerisation: The Construction of Functionalised Aliphatic Chains
28. Carbon-Carbon Coupling Reactions: Quite a lot of Name Reactions
29. Hydrogenation: C-H Bond Formation
30. Oxidation: C-O Bond Formation
31. Amination and Hydroamination: C-N Bond Formation
32. Hydrofunctionalisation: Formation of Further C-X Bonds
33. Isomerisation and Rearrangement: Migration of Double Bonds and Rearrangement of the Carbon Backbone
34. Tandem Reactions: Multiple Synthesis Steps in One Pot
 
PART IV: ASSOCIATED CATALYSIS
35. Nanocatalysis: A Balancing Act Between Homogeneous and Heterogeneous Catalysis
36. Electrocatalysis: Catalysis with Electrons
37. Photocatalysis: Catalysis with Photons
38. Alternative Ways of Energy Input: Sono-, Microwave- and Mechanocatalysis
39. Organocatalysis: Homogeneous Catalysis only with Organic Compounds
 
PART V: NEW RESOURCES
40. Alkane Activation: Acquisition of New Feedstocks
41. Reactions with Carbon Dioxide: Activating an "Inactive" Molecule
42. Nitrogen Activation: Reaching for the Air
43. Recycling of Polymers: The Use of Waste
44. Homogeneous Catalysis with Renewables: Using Nature's Treasures
45. Future Challenges of Homogeneous Catalysis: What the Crystal Ball Might Tell You
 
ANSWERS TO THE QUICKIES
INDEX

Arno Behr headed the Chair of Industrial Chemistry at TU Dortmund University, Germany, until his retirement in 2017. His research interests included homogeneous transition metal catalysis, conversion of petrochemicals and renewables, and catalyst recycling. He published 300 publications in scientific journals - especially in the field of homogeneous catalysis and its technical applications, as well as 10 books.
 
Thomas Seidensticker leads a research group at TU Dortmund University, Germany. His research is dedicated to sustainable process design for homogeneous catalysts, including developing innovative recycling methods and converting renewable resources.
 
Dieter Vogt is head of the Chair of Industrial Chemistry at TU Dortmund University, Germany, since 2017. His main research interests are homogeneous transition metal catalysis, ligand and catalyst design, and process development in continuously operated miniplants.

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