Progress In Heterocyclic Chemistry by Gordon W. GribbleProgress In Heterocyclic Chemistry by Gordon W. Gribble

Progress In Heterocyclic Chemistry

byGordon W. GribbleEditorJohn A. Joule

Hardcover | October 27, 2014

Pricing and Purchase Info


Earn 1,233 plum® points

Prices and offers may vary in store


Ships within 1-2 weeks

Ships free on orders over $25

Not available in stores


This is the 26th annual volume ofProgress in Heterocyclic Chemistryand covers the literature published during 2013 on most of the important heterocyclic ring systems. This volume opens with two specialized reviews, not restricted to work published in 2013: Recent Developments in the Synthesis of Cyclic Guanidine Alkaloids written by Matthew G. Donahue, and Heterocyclic chemistry: a complete toolbox for nanostructured carbon materials written by Luisa Lascialfari, Stefano Fedeli, and Stefano Cicchi. The remaining chapters examine the 2013 literature on the common heterocycles in order of increasing ring size and the heteroatoms present.

  • Recognized as the premiere review of heterocyclic chemistry
  • Contributions from leading researchers in the field
  • Systematic survey of the important 2013 heterocyclic chemistry literature
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 ...
Title:Progress In Heterocyclic ChemistryFormat:HardcoverDimensions:632 pages, 9.41 × 7.24 × 0.98 inPublished:October 27, 2014Publisher:Elsevier ScienceLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0081000170

ISBN - 13:9780081000175

Look for similar items by category:


Table of Contents

1 Recent Developments in the Synthesis of Cyclic Guanidine Alkaloids,Matthew G. Donahue
2 Heterocyclic chemistry: a complete toolbox for nanostructured carbon materials,Stefano Cicchi
3 Three-Membered Ring Systems,David J. Lapinsky
4 Four-Membered Ring Systems,Benito Alcaide and Pedro Almendros
5.1 Five-Membered Ring Systems: Thiophenes and Se/Te Derivatives,Edward R. Biehl
5.2 Five-Membered Ring Systems: Pyrroles and Benzo Analogs,Justin M. Lopchuk
5.3 Five-Membered Ring Systems: Furans and Benzofurans,Xiao-Shui Peng, Renhua Fan and Jie Wu
5.4 Five Membered Ring Systems: With More than One N Atom,Larry Yet
5.5 Five-Membered Ring Systems: With N and'S (Se) Atoms,Yong-Jin Wu
5.6 Five-Membered Ring Systems: With O & S (Se, Te) Atoms,R. Alan Aitken and Lynn Power
5.7 Five-Membered Ring Systems with O & N Atoms,Franca M. Cordero, Donatella Giomi and Luisa Lascialfari
6.1 Six-Membered Ring Systems: Pyridines and Benzo Derivatives,Tara L. S. Kishbaugh
6.2 Six-Membered Ring Systems: Diazines and Benzo Derivatives,Alison Rinderspacher
6.3 Triazines, Tetrazines and Fused Ring Polyaza Systems,Anton M. Prokhorov andDmitry N. Kozhevnikov
6.4 Six-Membered Ring Systems: With O and/or S Atoms,Clementina M. M. Santos and Artur M. S. Silva
7 Seven-Membered Rings,John H. Ryan, Jason A. Smith, Christopher Hyland, Adam G. Meyer, Charlotte C. Williams, Alex Bissember and Jeremy Just
8 Eight-Membered and Larger Rings,George R. Newkome