Sustainable Catalysis: Without Metals or Other Endangered Elements, Part 1 Editor: Michael North
Base Catalysis in Nonasymmetric Synthesis
Homogeneous Acid Catalysis in Nonasymmetric Synthesis
Heterogeneous Acid Catalysis in Nonasymmetric Synthesis
Proline as an Asymmetric Organocatalyst
Prolinamides as Asymmetric Organocatalysts
Prolinols and Their Carbon Ethers as Asymmetric Organocatalysts
Prolinol Silyl Ethers as Asymmetric Organocatalysts
Other 2-Substituted Pyrrolidines as Asymmetric Organocatalysts
Other Substituted Pyrrolidines as Asymmetric Organocatalysts
Other Amino Acids as Asymmetric Organocatalysts
Peptides as Asymmetric Organocatalysts
Subject Index
Publication details
- Print publication date
- 16 Nov 2015
- Copyright year
- 2016
- Print ISBN
- 978-1-78262-640-4
- PDF eISBN
- 978-1-78262-209-3
- ePub eISBN
- 978-1-78262-752-4
About this book
Catalysis is a fundamentally sustainable process which can be used to produce a wide range of chemicals and their intermediates. Focussing on those catalytic processes which offer the most sustainability, this two-part book explores recent developments in this field, as well as examining future challenges. Focussing on catalysis without metals or other endangered elements, each chapter covers a different type of organocatalyst. Beginning with chapters on acid and base catalysis, the book then concentrates on asymmetric catalysis. Several chapters cover pyrrolidine-based and cinchona alkaloid-based catalysts, whilst other chapters examine further organoctalysts which are constructed only from sustainable elements. Together with "Sustainable Catalysis: With Non-endangered Metals", these books examine the progress in sustainable catalysis in all areas of chemistry, and are an important reference for researchers working in catalysis and green chemistry.
Author information
Michael North holds the Chair in Green Chemistry at the University of York. He is also Joint Chair of the CO2Chem, an EPSCR-supported Grand Challenge Network examining CO2 chemistry. His research interests are in green organic chemistry, especially sustainable catalysis and the utilization of sustainable feedstocks including CO2.