Progress in Heterocyclic Chemistry
- 1st Edition, Volume 16 - November 2, 2004
- Latest edition
- Editors: Gordon Gribble, J. Joule
- Language: English
This is the sixteenth annual volume of Progress in Heterocyclic Chemistry, and covers the literature published during 2003 on most of the important heterocyclic ring system… Read more
Description
Description
This is the sixteenth annual volume of Progress in Heterocyclic Chemistry, and covers the literature published during 2003 on most of the important heterocyclic ring systems.This volume opens with two specialized reviews. The first covers 'Lamellarins: Isolation, activity and synthesis' a significant group of biologically active marine alkaloids and the second discusses 'Radical Additions to Pyridines, Quinolines and Isoquinolines'. The remaining chapters examine the recent literature on the common heterocycles in order of increasing ring size and the heteroatoms present.
Readership
Readership
For academic and industrial chemists and advanced students interested in heterocyclic chemistry.
Table of contents
Table of contents
Chapter 1: Lamellarins: Isolation, activity and synthesis (P. Cironi et al.).
Chapter 2: Radical additions to pyridines, quinolines and isoquinolines (D.C. Harrowven, B.J. Sutton).
Chapter 3: Three-membered ring systems (A. Padwa, S. Murphree).
Chapter 4: Four-membered ring systems (B. Alcaide, P. Almendros).
Chapter 5: Five-Membered Ring Systems
Part 1. Thiophenes & Se, Te Analogs (V. Seshadri et al.).
Part 2. Pyrroles and Benzo Derivatives (T. Janosik et al.).
Part 3. Furans and Benzofurans (Xue-Long Hou et al.).
Part 4. With More than One N Atom (L. Yet).
Part 5. With N & S (Se) Atoms (M.G. Saulnier et al.).
Part 6. With O & S (Se, Te) Atoms (A. Aitken).
Part 7. With O & N Atoms (S. Cicchi et al.).
Chapter 6: Six-Membered Ring Systems
Part 1. Pyridines and Benzo Derivatives (D.L. Comins, J. Dinsmore).
Part 2. Diazines and Benzo Derivatives (M.P. Groziak).
Part 3. Triazines, Tetrazines and Fused Ring Polyaza Systems (Carmen Ochoa et al.).
Part 4. With O and/or S Atoms (J.D. Hepworth, B.M. Heron).
Chapter 7: Seven-Membered Ring Systems (J.D. Bremner).
Chapter 8: Eight-Membered and Larger Ring Systems (G.R. Newkome).
Index.
Chapter 2: Radical additions to pyridines, quinolines and isoquinolines (D.C. Harrowven, B.J. Sutton).
Chapter 3: Three-membered ring systems (A. Padwa, S. Murphree).
Chapter 4: Four-membered ring systems (B. Alcaide, P. Almendros).
Chapter 5: Five-Membered Ring Systems
Part 1. Thiophenes & Se, Te Analogs (V. Seshadri et al.).
Part 2. Pyrroles and Benzo Derivatives (T. Janosik et al.).
Part 3. Furans and Benzofurans (Xue-Long Hou et al.).
Part 4. With More than One N Atom (L. Yet).
Part 5. With N & S (Se) Atoms (M.G. Saulnier et al.).
Part 6. With O & S (Se, Te) Atoms (A. Aitken).
Part 7. With O & N Atoms (S. Cicchi et al.).
Chapter 6: Six-Membered Ring Systems
Part 1. Pyridines and Benzo Derivatives (D.L. Comins, J. Dinsmore).
Part 2. Diazines and Benzo Derivatives (M.P. Groziak).
Part 3. Triazines, Tetrazines and Fused Ring Polyaza Systems (Carmen Ochoa et al.).
Part 4. With O and/or S Atoms (J.D. Hepworth, B.M. Heron).
Chapter 7: Seven-Membered Ring Systems (J.D. Bremner).
Chapter 8: Eight-Membered and Larger Ring Systems (G.R. Newkome).
Index.
Product details
Product details
- Edition: 1
- Latest edition
- Volume: 16
- Published: December 31, 2004
- Language: English
About the editors
About the editors
GG
Gordon Gribble
Gordon Gribble is the Dartmouth Professor of Chemistry at Dartmouth College, Hanover, USA. His research program covers several areas of organic chemistry, most of which involve synthesis, including novel indole chemistry, triterpenoid synthesis, DNA intercalation, and new synthetic methodology. Prof. Gribble also has a deep interest in naturally occurring organohalogen compounds and in the chemistry of wine and wine making.
Affiliations and expertise
Professor, Chemistry, Dartmouth College, Hanover, USAJJ
J. Joule
Affiliations and expertise
Department of Chemistry, The University of Manchester, UKView book on ScienceDirect
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