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Synlett 2004(11): 1875-1890
DOI: 10.1055/s-2004-830883
DOI: 10.1055/s-2004-830883
ACCOUNT
© Georg Thieme Verlag Stuttgart · New York
Novel Group-Transfer Radical Reactions with Organotelluriums
Further Information
Received
23 March 2004
Publication Date:
05 August 2004 (online)
Publication History
Publication Date:
05 August 2004 (online)
Abstract
Organotellurium compounds serve as excellent precursors for carbon-centered radicals, which have significant synthetic utility ranging from the formation of highly functionalized small molecules to structurally well-defined macromolecules. This review focuses on the radical reactions of organotellurium compounds, with an emphasis on the new carbon-carbon bond formation reaction developed in the author’s laboratory.
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1 Introduction
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2 Reversible Radical Generation from Organotellurium Compounds
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3 Radical Addition to Unsaturated Carbon-Carbon Bonds
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3.1 Glycosyl Radical Addition to Alkynes
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3.2 Functionalization of Quinones
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3.3 Group-Transfer Imidoylation of Isonitriles
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4 Silyltelluride-Mediated Radical Coupling Reactions
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4.1 Coupling of Carbonyl Compounds with Isonitriles
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4.2 Coupling of Carbonyl Compounds with Alkynes
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4.3 Coupling of Imines with Isonitriles
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4.4 Reductive bis-Silylation of Quinones
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5 Living Radical Polymerization
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5.1 Development of New Initiators
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5.2 Confirmation of Living Character
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5.3 Selective Modification of Polymer-End Group
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5.4 Development of High-Speed TERP
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6 Summary
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