Organic Synthesis: State of the Art 2011-2013 is a convenient, concise reference that summarizes the most important current developments in organic synthesis, from functional group transformations to complex natural product synthesis. The fifth volume in the esteemed State of the Art series, the book compiles two years' worth of Douglass Taber's popular weekly column Organic Chemistry Highlights. The series is an invaluable resource, leading chemists quickly and easily to the most significant developments in the field. The book is logically divided into two sections: the first section focuses on specific topics in organic synthesis, such as C-N Ring Construction and Carbon-Carbon Bond Formation. Each topic is presented using the most significant publications within those areas of research. The journal references are included in the text. The second section focuses on benchmark total syntheses, with an analysis of the strategy for each, and discussions of pivotal transformations. Synthetic organic chemistry is a complex and rapidly growing field, with additional new journals appearing almost every year. Staying abreast of recent research is a daunting undertaking. This book is an ideal tool for both practicing chemists and students, offering a rich source of information and suggesting fruitful pathways for future investigation.



Autorentext

Douglass F. Taber, who currently lives in Philadelphia, is Professor Emeritus at the University of Delaware. Professor Taber published more than 200 articles in the field of organic chemistry, and authored eight chapters and several books. His research interests include the stereoselective synthesis of natural products, new methods in synthetic organic chemistry, and computational organometallic chemistry in organic synthesis. Tristan Lambert is a Professor of Chemistry at Columbia University, where he heads a lab with the goal of advancing the field of organic synthesis by inventing transformative new reaction tools that will increase the speed, efficiency, and selectivity with which complex molecules may be constructed.



Zusammenfassung
Organic Synthesis: State of the Art 2011-2013 is a convenient, concise reference that summarizes the most important current developments in organic synthesis, from functional group transformations to complex natural product synthesis. The fifth volume in the esteemed State of the Art series, the book compiles two years' worth of Douglass Taber's popular weekly column Organic Chemistry Highlights. The series is an invaluable resource, leading chemists quickly and easily to the most significant developments in the field. The book is logically divided into two sections: the first section focuses on specific topics in organic synthesis, such as C-N Ring Construction and Carbon-Carbon Bond Formation. Each topic is presented using the most significant publications within those areas of research. The journal references are included in the text. The second section focuses on benchmark total syntheses, with an analysis of the strategy for each, and discussions of pivotal transformations. Synthetic organic chemistry is a complex and rapidly growing field, with additional new journals appearing almost every year. Staying abreast of recent research is a daunting undertaking. This book is an ideal tool for both practicing chemists and students, offering a rich source of information and suggesting fruitful pathways for future investigation.

Inhalt

Contents Preface Organic Functional Group Interconversion and Protection 1. Functional Group Transformations http://www.organic-chemistry.org/Highlights/2012/14May.shtm May 14, 2012 2. Functional Group Interconversion http://www.organic-chemistry.org/Highlights/2012/22October. shtm October 22, 2012 3. Functional Group Interconversion http://www.organic-chemistry.org/Highlights/2013/13May.shtm May 13, 2013 4. Functional Group Interconversion http://www.organic-chemistry.org/Highlights/2013/28October. shtm October 28, 2013 5. Reduction and Oxidation http://www.organic-chemistry.org/Highlights/2012/21May.shtm May 21, 2012 6. Functional Group Oxidation and Reduction http://www.organic-chemistry.org/Highlights/2012/12November .shtm November 12, 2012 7. Functional Group Oxidation http://www.organic-chemistry.org/Highlights/2013/20May.shtm May 20, 2013 8. Functional Group Reduction http://www.organic-chemistry.org/Highlights/2013/27May.shtm May 27, 2013 9. Functional Group Protection http://www.organic-chemistry.org/Highlights/2012/28May.shtm May 28, 2012 10. Functional Group Protection http://www.organic-chemistry.org/Highlights/2012/29October. shtm October 29, 2012 11. Functional Group Protection http://www.organic-chemistry.org/Highlights/2013/10June.sht m June 12, 2013 12. Functional Group Protection http://www.organic-chemistry.org/Highlights/2013/11November .shtm November 11, 2013 Flow Methods 13. Develop of Flow Reactions September 24, 2012 14. Flow Chemistry http://www.organic-chemistry.org/Highlights/2013/25March.sh tm March 25, 2013 15. Flow Chemistry http://www.organic-chemistry.org/Highlights/2013/30Septembe r.shtm September 30, 2013 C-H Functionalization 16. C-H Functionalization: The Ono/Kato/Dairi Synthesis of Fusiocca-1,10(14)-diene-3,8?,16-triol http://www.organic-chemistry.org/Highlights/2012/19March.sh tm March 19, 2012 17. C-H Functionalization http://www.organic-chemistry.org/Highlights/2012/17Septembe r.shtm September 17, 2012 18. C-H Functionalization: The Hatakeyama Synthesis of (-)-Kaitocephalin http://www.organic-chemistry.org/Highlights/2013/28January. shtm January 28, 2013 19. C-H Functionalization http://www.organic-chemistry.org/Highlights/2013/16Septembe r.shtm September 16, 2013 20. Natural Product Synthesis by C-H Functionalization: (±)-Allokainic Acid (Wee), (-)-Cameroonan-7?-ol (Taber), (+)-Lithospermic Acid (Yu), (-)-Manabacanine (Kroutil), Streptorubin B and Metacycloprodigiosin (Challis) http://www.organic-chemistry.org/Highlights/2012/30January. shtm January 30, 2012 21. Natural Product Synthesis by C-H Functionalization: (-)-Zampanolide (Ghosh), Muraymycin D2 (Ichikawa), (+)-Sundiversifolide (Iwabuchi), (+)-Przewalskin B (Zhang/Tu), Artemisinin (Wu) http://www.organic-chemistry.org/Highlights/2012/11June.sht m June 11, 2012 Carbon-Carbon Bond Construction 22. Carbon-Carbon Bond Formation: The Bergman Synthesis of (+)-Fuligocandin B http://www.organic-chemistry.org/Highlights/2012/12March.sh tm March 12, 2012 23. C-C Bond Formation: The Petrov Synthesis of Combretastatin A-4 http://www.organic-chemistry.org/Highlights/2012/18June.sht m June 18, 2012 24. Carbon-Carbon Bond Construction: The Baran Synthesis of (+)-Chromazonarol http://www.organic-chemistry.org/Highlights/2013/11March.sh tm March 11, 2013 25. Carbon-Carbon Bond Construction http://www.organic-chemistry.org/Highlights/2013/29July.sht m July 29, 2013 26. Reactions Involving C-C Bond Cleavage http://www.organic-chemistry.org/Highlights/2013/23Septembe r.shtm September 23, 2013 Reactions of Alkenes 27. Reactions of Alkenes: The RajanBabu Synthesis of Pseudopterosin G-J Aglycone Dimethyl Ether March 26, 2012 28. Reactions of Alkenes http://www.organic-chemistry.org/Highlights/2012/10Septembe r.shtm September 10, 2012 29. Reactions of Alkenes http://www.organic-chemistry.org/Highlights/2013/18March.sh tm March 18, 2013 30. Synthesis and Reactions of Alkenes http://www.organic-chemistry.org/Highlights/2013/09Septembe r.shtm September 9, 2013 31. Advances in Alkene Metathesis: The Kobayashi Synthesis of (+)-TMC-151C http://www.organic-chemistry.org/Highlights/2012/23January. shtm January 23, 2012 Enantioselective Construction of Acyclic Stereogenic Centers 32. Enantioselective Synthesis of Alcohols and Amines: The Ichikawa Synthesis of (+)-Geranyllinaloisocyanide http://www.organic-chemistry.org/Highlights/2012/13February .shtm February 13, 2012 33. Enantioselective Synthesis …

Titel
Organic Synthesis
Untertitel
State of the Art 2011-2013
EAN
9780190200800
ISBN
978-0-19-020080-0
Format
PDF
Hersteller
Veröffentlichung
27.10.2014
Digitaler Kopierschutz
Adobe-DRM
Dateigrösse
44.63 MB
Anzahl Seiten
264
Jahr
2014
Untertitel
Englisch