Biotransformations in organic chemistry. A textbook, third edition, by Kurt Faber, Springer‐Verlag, Berlin, , pp. Yuri Khmelnitsky. Biotransformations in Organic Chemistry: A Textbook, 5th Edition by Kurt Faber. Springer-Verlag: Heidelberg. + XI pp. £27 (paperback). Description. The use of biocatalysts, employed either as isolated enzymes or whole microbial cells, offers a remarkable arsenal of highly selective.
New developments, such as dynamic resolution, stereo-inversion and enantio-convergent processes are included. Special techniques, such as the use of enzymes in organic botransformations, immobilization techniques and the use of modified enzymes, are treated in a separate section.
Biotransformations in organic chemistry : a textbook / Kurt Faber – Details – Trove
A final chapter deals with the basic rules for the safe and practical handling of biocatalysts. Kinetics, equilibria, and their effects on selectivity and enantioselectivity are explained in careful detail, with interesting reactions chemitsry to exemplify these concepts. This book is not a reference work, though, since it includes explanations of the many reaction classes such as hydrolysis, reduction, oxidation, etc.
Introduction and Background Information: Over the last two decades, this methodology has become an indispensable tool for asymmetric synthesis, not only at the academic level, but also on an industrial scale. This well-established textbook on biocatalysis provides a basis for undergraduate and graduate courses in modern organic chemistry, as well as a condensed introduction into this field.
Site Search any all words Main Categories. The use of biocatalysts, employed either as isolated enzymes or whole microbial cells, offers a remarkable arsenal of highly selective transformations for state-of-the-art synthetic organic chemistry. This book is a must for everyone bitransformations an abiding interest in this topic. After a basic introduction into biotransformationw use of biocatalysts – principles of stereoselective transformations, kinetics and enzyme properties – the different types of reactions are explained according to the ‘reaction principle’, such as hydrolysis, reduction, oxidation, C-C bond formation, etc.