Abstract
Phosphines and their derivatives feature prominently in organic synthesis, medicinal chemistry, and material science. Yet, a general synthetic platform for the modular and mild assembly of these compounds remains elusive. Herein, a metal-free photoinduced divergent formation of aryl-P-(III) and aryl-P-(V) has been established employing dibenzothiophenium salts as the aryl radical precursor and structurally amendable oxylphosphines as the partners by tuning the thermodynamic and kinetic parameters. A variety of structurally diverse triaryl phosphines, phosphine oxides/sulfides, and phosphinates, as well as phosphonates, were modularly assembled under mild conditions from easily available oxylphosphine and arenes. This photoinduced version provides a mild and versatile protocol complementary to the Michaelis-Arbuzov reaction. Notably, this photoinduced methodology was compatible with halide functionalities (Cl, Br, OTf), and the combination of this method with classic two-electron approaches showed great value in the synthesis of unsymmetrical phosphine ligands. Preliminary mechanistic studies for this methodology were also investigated.