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Compendium of Organic Synthetic Methods, Volume 8

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ISBN: 978-0-471-57319-7

October 1995

656 pages

Description
More than a one-volume listing of synthetic methods, Compendium of Organic Synthetic Methods offers chemists a highly focused and selective look at several thousand functional group transformations. Used by more professionals than any comparable reference on the market, this valuable desktop resource provides quick access to the recipes of the newest, most useful reactions and transformations. It also affords professionals an unparalleled opportunity to browse the vast body of recent literature for new reactions and transformations that may be of interest.

Featuring 1,200 more entries than its predecessor, Volume 8 covers functional group transformations and carbon-carbon bond forming reactions appearing in the literature from 1990 through 1992. It presents approximately 1,400 examples of published reactions for the preparation of monofunctional compounds and approximately 1,640 examples of reactions that prepare difunctional compounds with various functional groups. It also features 60 more reviews than Volume 7.

As in all the previous Compendium volumes, the classification schemes used allow for quick and easy reference and information retrieval. Chemical transformations are classified first by the reacting functional group of the starting material and then by the functional group formed. The transformation, major reagents that effect the transformation, yield percentage, and stereochemistry are all clearly shown. The Compendium also includes indices for both monofunctional and difunctional compounds as an efficient means of guiding you to specific classes of transformations.

Compendium of Organic Synthetic Methods, Volume 8 provides professional chemists and students unparalleled access to the wealth of methods, reactions, and transformations in contemporary organic chemistry.

About the Author
MICHAEL B. SMITH is Professor of Chemistry in the Department of Chemistry at the University of Connecticut, at Storrs. His research interests focus on developing asymmetric reactions based on manipulating chiral, nonracemic lactams. This work is applied to the development of new synthetic methods and the synthesis of polycyclic alkaloids with antitumor or antiviral activity. He was responsible for developing a new reagent for determining the enantiomeric composition of alcohols and amines bearing a chiral center. Dr. Smith received his doctorate in organic chemistry from Purdue and a bachelor's degree in chemistry from Virginia Tech.