Alkylarylation of alkenes with arylsulfonylacetate as bifunctional reagent via photoredox radical addition/smiles rearrangement cascade

The radical difunctionalization of alkenes with sulfonyl bifunctional represents a powerful and straightforward approach to access functionalized alkane derivatives. However, both the mechanistic activation mode and the substrate scopes of this type of radical difunctionalizations are still limited. We demonstrate herein a modular photoredox strategy for the difunctionalization of alkenes, employing arylsulfonyl acetate as the bifunctional reagent. This approach involves a radical addition/Smiles rearrangement cascade process, offering a robust alternative for the synthesis of valuable γ,γ-diaryl and γ-aryl esters. A complementary oxidative bifunctional reagents activation mode is identified to govern the radical cascade reactions, facilitating the simultaneous incorporation of aryl and carboxylate-bearing alkyl groups into the alkenes with excellent diastereoselectivity. Noteworthy features of this method include mild reaction conditions, organophotocatalysis, high atom- and step-economy, excellent functional group compatibility and great structural diversity. We demonstrate herein a modular photoredox strategy for the difunctionalization of alkenes employing arylsulfonyl acetate as the bifunctional reagent via a radical addition/Smiles rearrangement cascade processes. A complementary oxidative bifunctional reagents activation mode is identified to govern the radical cascade reactions, facilitating the simultaneous incorporation of aryl and carboxylate-bearing alkyl groups into the alkenes with excellent diastereoselectivity. [Display omitted]