Annual Reports in Organic Synthesis-1982 (e-bog) af -
O'Donnell, Martin J. (redaktør)

Annual Reports in Organic Synthesis-1982 e-bog

619,55 DKK (inkl. moms 774,44 DKK)
Annual Reports in Organic Synthesis-1982 presents an annual review of synthetically useful information that would prove beneficial to nearly all organic chemists, both specialist and nonspecialist in synthesis. It should help relieve some of the information storage burden of the specialist and should aid the nonspecialist who is seeking help with a specific problem to become rapidly aware of re...
E-bog 619,55 DKK
Forfattere O'Donnell, Martin J. (redaktør)
Udgivet 22 oktober 2013
Længde 514 sider
Genrer PNN
Sprog English
Format pdf
Beskyttelse LCP
ISBN 9781483141176
Annual Reports in Organic Synthesis-1982 presents an annual review of synthetically useful information that would prove beneficial to nearly all organic chemists, both specialist and nonspecialist in synthesis. It should help relieve some of the information storage burden of the specialist and should aid the nonspecialist who is seeking help with a specific problem to become rapidly aware of recent synthetic advances. In producing this volume the editors abstracted 48 primary chemistry journals, selecting useful synthetic advances. All reactions and methods which are new, synthetically useful, and reasonably general are included. Each entry is comprised primarily of structures accompanied by very few comments. The purpose of this is to aid the reader in rapidly scanning the book. Chapters I-III are organized by reaction type and constitute the major part of the book. Chapter IV deals with methods of synthesizing heterocyclic systems. Chapter V covers the use of new protecting groups. Chapter VI is divided into three main parts and covers those synthetically useful transformations that do not fit easily into the first three chapters. The first part deals only with functional group synthesis. The second part covers ring expansion and contraction, and the third part involves useful multistep sequences.