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Progress in Heterocyclic Chemistry (PHC), Volume 28 is an annual review series commissioned by the International Society of Heterocyclic Chemistry (ISHC). Volumes in the series co… Read more
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Immediately download your ebook while waiting for your print delivery. No promo code is needed.
Progress in Heterocyclic Chemistry (PHC), Volume 28 is an annual review series commissioned by the International Society of Heterocyclic Chemistry (ISHC). Volumes in the series contain both highlights of the previous year’s literature on heterocyclic chemistry and articles on new and developing topics of particular interest to heterocyclic chemists.
The highlight chapters in Volume 28 are all written by leading researchers and constitute a systematic survey of the important original material reported in the literature of heterocyclic chemistry during 2015. Additional articles in this volume include Semi-conjugated Heteroaromatic Rings and beta-Lactam Chemistry.
As with previous volumes in the series, Volume 28 will enable academic and industrial chemists, and advanced students, to keep abreast of developments in heterocyclic chemistry in a convenient way.
Organic chemists, academic and industrial chemists, as well as advanced students
1. Semi-conjugated Heteroaromatic Rings: A Missing Link in Heterocyclic Chemistry
2. Recent Progress in the Use of Functionalized B-Lactams as Building Blocks in Heterocyclic Chemistry
3. Three-Membered Ring Systems
4. Four-Membered Ring Systems
5.1. Five-Membered Ring Systems: Thiophenes and Se/Te Derivatives
5.2. Five-Membered Ring Systems: Pyrroles And Benzo Analogs
5.3. Five-Membered Ring Systems: Furans and Benzofurans
5.4. Five Membered Ring Systems: With More than One N Atom
5.5. Five-Membered Ring Systems: With N and S (Se) Atom
5.6. Five-Membered Ring Systems: With O & S (Se, Te) Atoms
5.7. Five-Membered Ring Systems with O & N Atoms
6.1. Six-Membered Ring Systems: Pyridines And Benzo Derivatives
6.2. Six-Membered Ring Systems: Diazines and Benzo Derivatives
6.3. Triazines, tetrazines and fused ring polyaza systems
6.4. Six-Membered Ring Systems: With O and/or S Atoms
7. Seven-Membered Rings
8. Eight-Membered and Larger Rings
GG
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.
JJ