Catalytic Cycloisomerization onto a Carbonyl Oxygen

We have found that terminal N-vinylindoles bearing cycloalkanone substituents are excellent hydrogen atom acceptors, generating α-aminyl radicals with a variety of catalysts (Co(II)/H2 or Co(III)Cl precatalysts with silane reductants). These radicals can be converted to internal vinylindoles but e...

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Veröffentlicht in:	Organic letters 2020-08, Vol.22 (15), p.6171-6176
Hauptverfasser:	Shi, Shicheng, Kuo, Jonathan L, Chen, Tao, Norton, Jack R
Format:	Artikel
Sprache:	eng
Schlagworte:	Catalysis Cyclization Hydrogen - chemistry Isomerism Molecular Structure Oxygen - chemistry Silanes - chemistry
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creator	Shi, Shicheng Kuo, Jonathan L Chen, Tao Norton, Jack R
description	We have found that terminal N-vinylindoles bearing cycloalkanone substituents are excellent hydrogen atom acceptors, generating α-aminyl radicals with a variety of catalysts (Co(II)/H2 or Co(III)Cl precatalysts with silane reductants). These radicals can be converted to internal vinylindoles but eventually add to the oxygen of the cycloalkanone substituents. These cyclizations eventually furnish a densely functionalized dihydrofuran (a net cycloisomerization). The internal vinylindoles are slowly converted to the dihydrofurans, but the final cycloisomerization/isomerization ratio is affected by the size of the cycloalkanone ring (seven- and eight-membered rings give the highest ratio). These results demonstrate how HAT can isomerize substrates in nonintuitive ways, here leading to the first HAT-promoted formation of a C–O bond.
doi_str_mv	10.1021/acs.orglett.0c02272
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subjects	Catalysis Cyclization Hydrogen - chemistry Isomerism Molecular Structure Oxygen - chemistry Silanes - chemistry
title	Catalytic Cycloisomerization onto a Carbonyl Oxygen
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