Gribble / Aitken | Progress in Heterocyclic Chemistry | Buch | 978-0-443-18939-5 | sack.de

Buch, Englisch, 700 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 1020 g

Gribble / Aitken

Progress in Heterocyclic Chemistry

Volume 34
Erscheinungsjahr 2023
ISBN: 978-0-443-18939-5
Verlag: Elsevier Science & Technology

Volume 34

Buch, Englisch, 700 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 1020 g

ISBN: 978-0-443-18939-5
Verlag: Elsevier Science & Technology

Progress in Heterocyclic Chemistry: Volume 34, the latest in this annual review series commissioned by the International Society of Heterocyclic Chemistry (ISHC), contains both highlights of the previous year's literature on heterocyclic chemistry and articles on new developing topics of particular interest to heterocyclic chemists. Highlight chapters in Volume 34 are all written by leading researchers in their field, thus constituting a systematic survey of the important original material reported in the literature of heterocyclic chemistry in 2021.

As with previous volumes in the series, Volume 34 will enable academic and industrial chemists and advanced students to keep abreast of developments in heterocyclic chemistry in a convenient way.

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Zielgruppe

The primary audience for this series includes Heterocyclic, Medicinal and Natural Product Chemists working in academia, Government laboratories, and industry.
Given the wide breadth of heterocyclic chemistry, there is a vast secondary audience of scientists from other disciplines, including Organic and Analytical Chemists, Biochemists, Synthetic Chemists, Pharmaceutical Scientists and Chemical Engineers.

Autoren/Hrsg.

Gribble, Gordon
Aitken, R Alan

Fachgebiete

Weitere Infos & Material

1. Sulfur monoxide: generation, trapping, and synthetic applications

Connor Prior, Richard S. Grainger

2. Syntheses of linear azapentacenes

Georgia A. Zissimou, Panayiotis A. Koutentis

3. Three-membered ring systems

Jonathon S. Russel

4. Four-membered ring systems

Josefa Anaya, Ramón M. Sánchez

5.1 Five-membered ring systems: thiophenes and selenium/tellurium analogs and benzo analogs

John A. Joule

5.2 Five-membered ring systems: pyrroles and benzo analogs

Justin M. Lopchuk

5.3 Five-membered ring systems: furans and benzofurans

Halina Kwiecien

5.4 Five-membered ring systems: with more than one N atom

Larry Yet

5.5 Five-membered ring systems: with N and S atom

Narendra B. Ambhaikar, Shriharsha Uppaluri

5.6 Five-membered ring systems: with O and S (Se, Te) atoms

R. Alan Aitken, Fiona M. Fotherby

5.7 Five-membered ring systems with O and N atoms

Franca M. Cordero, Luisa Lascialfari, Fabrizio Machetti

6.1 Six-membered ring systems: pyridines and benzo derivatives

Jeanese C. Badenock

6.2 Six-membered ring systems: diazines and benzo derivatives

K. Alison Rinderspacher

6.3 Triazines, tetrazines, and fused ring polyaza systems

R. Alan Aitken, Fiona M. Fotherby

6.4 Six-membered ring systems: with O and/or S atoms

Clementina M.M. Santos, Artur M.S. Silva

7 Seven-membered rings

Alex C. Bissember, Steven M. Wales, Bill C. Hawkins, Jack L.-Y. Chen, Wade F. Petersen, Andrew J. Tague, Cassandra L. Fleming, Andrew P. Cording, Ashlyn D. Bhana, Mark D. Johnstone, James P. Shephard

8 Eight-membered and larger rings

Charles N. Moorefield, George R. Newkome

Aitken, R Alan
Alan Aitken is a Professor of Organic Chemistry at the University of St Andrews, UK. Much of his research activity has been in the area of heterocyclic chemistry and he has been active in the International Society of Heterocyclic Chemistry, attending all but two of their biennial congresses since 1985, contributing an annual review chapter to Progress in Heterocyclic Chemistry since 1990 and being an elected member of their International Advisory Committee 1997-99 and 2011-17. Since 2018, he has been a member of the Executive Committee and Publicity Chair for ISHC.

Gribble, Gordon
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.

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