Chemoselective photocatalytic sulfenylamination of alkenes with sulfenamides via energy transfer

β-Amino sulfides hold significant biological importance, motivating the development of several methods for sulfenylamination of alkenes. However, these methods often involve a three-component system with limited alkene substrate range. In this study, we present a pioneering two-component approach utilizing readily accessible sulfenamides as efficient difunctionalization reagents. Key to its success is the careful selection of a suitable photosensitizer, which enables precise modulation of sulfenamides by promoting unprecedented energy transfer rather than traditional single-electron oxidation. This novel strategy leads to the concurrent formation of N- and S-radical species, ensuring high regioselectivity for both electron-neutral and electron-deficient alkenes. As a result, a wide range of valuable β-amino sulfides, including those with congested amine groups, can be readily synthesized. These findings highlight the potential of this method for the efficient synthesis of diverse functionalized β-amino sulfides.