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Progress in heterocyclic chemistry : Vol. 27 / [electronic resource]

by Gribble, Gordon W [editor.]; Joule, J. A. (John Arthur) [editor.].
Material type: materialTypeLabelBookSeries: Progress in Heterocyclic Chemistry: Publisher: Amsterdam : Elsevier, �2015Description: 1 online resource (xv, 627 pages).ISBN: 0081000472; 9780081000472.Subject(s): Heterocyclic chemistry | Heterocyclic compounds -- Congresses | SCIENCE -- Chemistry -- Organic | Heterocyclic chemistry | Heterocyclic compounds | Electronic books | Conference papers and proceedingsOnline resources: ScienceDirect | ScienceDirect
Contents:
Front Cover; PROGRESS IN HETEROCYCLIC CHEMISTRY; Copyright; CONTENTS; CONTRIBUTORS; FOREWORD; EDITORIAL ADVISORY BOARD MEMBERS PROGRESS IN HETEROCYCLIC CHEMISTRY; 1 -- Propargyl Vinyl Ethers as Powerful Starting Points for Heterocycle Synthesis; 1.1 INTRODUCTION; 1.2 SYNTHESIS OF FURANS AND PYRROLES VIA PROPARGYL CLAISEN REARRANGEMENT; 1.3 SYNTHESIS OF 1,3-OXAZOLIDINES VIA MICROWAVE SYNTHESIS; 1.4 SYNTHESIS OF 2H-PYRANS AND 1,2-DIHYDROPYRIDINES; 1.5 SUMMARY; REFERENCES; 2 -- Recent Progress of Phosphonium Coupling in Heterocyclic and Medicinal Chemistry; 2.1 INTRODUCTION.
2.2 DISCOVERY OF PHOSPHONIUM COUPLING2.2.1 Phosphonium Salts; 2.2.2 Tautomerizable Heterocycles; 2.2.3 Reaction Discovery; 2.2.4 Solvent Effect and Base Effect; 2.2.5 Reaction Mechanism; 2.3 PHOSPHONIUM COUPLING FOR DIRECT AMINATION; 2.3.1 Direct Amination; 2.3.2 Recent Progress and Application; 2.4 PHOSPHONIUM COUPLING FOR DIRECT ETHERIFICATION; 2.4.1 Direct Etherification; 2.4.2 Recent Progress and Application; 2.5 PHOSPHONIUM COUPLING FOR DIRECT THIOETHERIFICATION; 2.5.1 Direct Thioetherification; 2.5.2 Recent Progress and Application.
2.6 PHOSPHONIUM COUPLING FOR DIRECT ALKYLATION2.6.1 Direct Alkylation; 2.6.2 Recent Progress and Application; 2.7 PHOSPHONIUM COUPLING FOR DIRECT ARYLATION; 2.7.1 Direct Arylation; 2.7.2 Reaction Mechanism; 2.7.3 Recent Progress and Application; 2.8 PHOSPHONIUM COUPLING FOR DIRECT ALKYNYLATION; 2.8.1 Direct Alkynylation; 2.8.2 Reaction Mechanism; 2.8.3 Recent Progress and Application; 2.9 PHOSPHONIUM COUPLING FOR NUCLEOSIDE CHEMISTRY; 2.9.1 Multistep Transformation; 2.9.2 Single Step Transformation; 2.10 SUMMARY; REFERENCES; 3 -- Three-Membered Ring Systems; 3.1 INTRODUCTION.
5.1.1 INTRODUCTION5.1.2 SYNTHESIS OF THIOPHENES, SELENOPHENES, AND TELLUROPHENES; 5.1.3 ELABORATION OF THIOPHENES AND BENZOTHIOPHENES; 5.1.4 SYNTHESIS OF THIOPHENES, SELENOPHENES, AND TELLUROPHENES FOR THE USE IN THE MATERIAL SCIENCES; 5.1.5 THIOPHENE, SELENOPHENE, AND TELLUROPHENE DERIVATIVES IN MEDICINAL AND ENVIRONMENTAL CHEMISTRY; REFERENCES; 5.2 -- Five-Membered Ring Systems: Pyrroles and Benzo Analogs; 5.2.1 INTRODUCTION; 5.2.2 SYNTHESIS OF PYRROLES; 5.2.2.1 Intramolecular Approaches to Pyrroles; 5.2.2.1.1 Intramolecular Type a; 5.2.2.1.2 Intramolecular Type c.
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Includes index.

Print version record.

Front Cover; PROGRESS IN HETEROCYCLIC CHEMISTRY; Copyright; CONTENTS; CONTRIBUTORS; FOREWORD; EDITORIAL ADVISORY BOARD MEMBERS PROGRESS IN HETEROCYCLIC CHEMISTRY; 1 -- Propargyl Vinyl Ethers as Powerful Starting Points for Heterocycle Synthesis; 1.1 INTRODUCTION; 1.2 SYNTHESIS OF FURANS AND PYRROLES VIA PROPARGYL CLAISEN REARRANGEMENT; 1.3 SYNTHESIS OF 1,3-OXAZOLIDINES VIA MICROWAVE SYNTHESIS; 1.4 SYNTHESIS OF 2H-PYRANS AND 1,2-DIHYDROPYRIDINES; 1.5 SUMMARY; REFERENCES; 2 -- Recent Progress of Phosphonium Coupling in Heterocyclic and Medicinal Chemistry; 2.1 INTRODUCTION.

2.2 DISCOVERY OF PHOSPHONIUM COUPLING2.2.1 Phosphonium Salts; 2.2.2 Tautomerizable Heterocycles; 2.2.3 Reaction Discovery; 2.2.4 Solvent Effect and Base Effect; 2.2.5 Reaction Mechanism; 2.3 PHOSPHONIUM COUPLING FOR DIRECT AMINATION; 2.3.1 Direct Amination; 2.3.2 Recent Progress and Application; 2.4 PHOSPHONIUM COUPLING FOR DIRECT ETHERIFICATION; 2.4.1 Direct Etherification; 2.4.2 Recent Progress and Application; 2.5 PHOSPHONIUM COUPLING FOR DIRECT THIOETHERIFICATION; 2.5.1 Direct Thioetherification; 2.5.2 Recent Progress and Application.

2.6 PHOSPHONIUM COUPLING FOR DIRECT ALKYLATION2.6.1 Direct Alkylation; 2.6.2 Recent Progress and Application; 2.7 PHOSPHONIUM COUPLING FOR DIRECT ARYLATION; 2.7.1 Direct Arylation; 2.7.2 Reaction Mechanism; 2.7.3 Recent Progress and Application; 2.8 PHOSPHONIUM COUPLING FOR DIRECT ALKYNYLATION; 2.8.1 Direct Alkynylation; 2.8.2 Reaction Mechanism; 2.8.3 Recent Progress and Application; 2.9 PHOSPHONIUM COUPLING FOR NUCLEOSIDE CHEMISTRY; 2.9.1 Multistep Transformation; 2.9.2 Single Step Transformation; 2.10 SUMMARY; REFERENCES; 3 -- Three-Membered Ring Systems; 3.1 INTRODUCTION.

880-01 5.1.1 INTRODUCTION5.1.2 SYNTHESIS OF THIOPHENES, SELENOPHENES, AND TELLUROPHENES; 5.1.3 ELABORATION OF THIOPHENES AND BENZOTHIOPHENES; 5.1.4 SYNTHESIS OF THIOPHENES, SELENOPHENES, AND TELLUROPHENES FOR THE USE IN THE MATERIAL SCIENCES; 5.1.5 THIOPHENE, SELENOPHENE, AND TELLUROPHENE DERIVATIVES IN MEDICINAL AND ENVIRONMENTAL CHEMISTRY; REFERENCES; 5.2 -- Five-Membered Ring Systems: Pyrroles and Benzo Analogs; 5.2.1 INTRODUCTION; 5.2.2 SYNTHESIS OF PYRROLES; 5.2.2.1 Intramolecular Approaches to Pyrroles; 5.2.2.1.1 Intramolecular Type a; 5.2.2.1.2 Intramolecular Type c.

Includes bibliographical references at the end of each chapters and index.

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Last Updated on September 15, 2019
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