Catalytic transformations via C-H activation
著者
書誌事項
Catalytic transformations via C-H activation
(Science of synthesis)
G. Thieme, 2016
- 1
- 2
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注記
Authors of 2: K. Arakawa ... [et al.]
Includes bibliographical references and indexes
内容説明・目次
- 巻冊次
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1 ISBN 9783131711410
内容説明
The reference work Science of Synthesis: Catalytic Transformations via C-H Activation covers the state of the art in C-H activation chemistry. Experts in the field present the best synthetic methods including typical or general experimental procedures. As such, this two volume set can serve as both a basis for the practical application of the techniques discussed, and as an educational resource to lay the foundations for future research.
Volume 1 concerns the formation of C-C bonds by both arene and hetarene C-H activation. For the arenes the material is subdivided into arylation (using palladium(0), palladium(II)/palladium(IV), palladium(II), and ruthenium(II) catalysts), vinylation (using various palladium and ruthenium(III) catalysts), and alkylation (using various metal catalysts in combination with either functionalized alkanes or alkenes). For the hetarenes, the related coupling strategies are covered as a single topic using a variety of metal catalysts and coupling partners.
- 巻冊次
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2 ISBN 9783132057418
内容説明
The reference work "Science of Synthesis: Catalytic Transformations via C-H Activation" covers the state of the art in C-H activation chemistry. Experts in the field present the best synthetic methods including typical or general experimental procedures. As such, this two volume set can serve as both a basis for the practical application of the techniques discussed, and as an educational resource to lay the foundations for future research.
Volume 2 concerns the formation of C-C bonds by C-H activation of non-(het)arene substrates as well as C-H activation using special reagents or techniques. The formation of C-heteroatom bonds by predominantly arene C-H activation is also reviewed. For C-C bond formation, the material is subdivided into allylic, alkyl, and double C-H activation techniques, coupling using carbenes or radicals, and carbonylation or carboxylation processes.
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