Ligand-promoted reductive coupling between aryl iodides and cyclic sulfonium salts by nickel catalysis

Developing applicable methods to forge linkages between sp3 and sp2-hydridized carbons is of great significance in drug discovery. We show here a new, Ni-catalyzed reductive cross-coupling reaction that forms Csp3−Csp2 bonds from aryl iodides and cyclic sulfonium salts. Notably, Csp3−Csp2 bonds can be forged selectively at the iodine-bearing carbon of bromo(iodo)arenes which is usually recognized as a huge challenge under the catalytic reductive cross-coupling (CRCC) conditions. Experimental and computational mechanistic studies support LNiIAr as an active species, while the untraditional anti-Markovnikov selective alkylation of asymmetric sulfonium salts is determined by the oxidative S-substitution of sulfonium salts with LNiIAr. This protocol further expands the range of alkyl electrophiles under the CRCC conditions and provides a new strategy for the construction of Csp3−Csp2 bonds.