4.8 Article

Hydrogen-Atom-Transfer-Initiated Radical/Polar Crossover Annulation Cascade for Expedient Access to Complex Tetralins

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WILEY-V C H VERLAG GMBH
DOI: 10.1002/anie.202303228

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Annulation; Giese Addition; Hydrogen Atom Transfer; Radical; Polar Crossover

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A radical/polar crossover annulation between allyl-substituted arenes and electron-deficient alkenes is reported. This reaction generates functionalized tetralin products via Co-catalyzed hydrogen atom transfer (HAT), avoiding hydrofluorination, hydroalkoxylation, hydrogenation, alkene isomerization, and radical polymerization reactions. The mild reaction conditions tolerate various functional groups, exhibiting broad substrate scope and enabling the rapid assembly of complex tetralins, which are difficult to access through traditional Diels-Alder cycloadditions of styrenes.
A radical/polar crossover annulation between allyl-substituted arenes and electron-deficient alkenes is described. Cobalt-catalyzed hydrogen atom transfer (HAT) facilitates tandem radical C-C bond formation that generates functionalized tetralin products in the face of potentially problematic hydrofluorination, hydroalkoxylation, hydrogenation, alkene isomerization, and radical polymerization reactions. The reactions proceed under mild conditions that tolerate many functional groups, leading to a broad substrate scope. This powerful ring-forming reaction very quickly assembles complex tetralins that are the formal products of the largely infeasible Diels-Alder cycloadditions of styrenes.

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