Asymmetric Nozaki-Hiyama-Kishi (NHK)-type reaction of isatins with aromatic iodides by cobalt catalysis

The asymmetric addition of aromatic organometallic compounds to the carbonyl group (C-3) of isatins, catalyzed by transition metals, has emerged as a remarkably efficient method for the synthesis of chiral 3-hydroxyoxindoles. Here, an exceptionally enantioselective approach was developed for the first time to achieve a catalytic NHK reaction of isatins with aromatic halides (both aryl and heteroaryl). Utilizing chiral cobalt complexes as catalysts, and the presence of a diboron reagent B₂nep₂ as both a reducing agent and determinant in enantiocontrol, has resulted in the triumphantly achieved synthesis of enantioenriched products. Compared to reported strategies, this approach exhibits remarkable compatibility with substrates bearing sensitive functional groups, such as halides and borate esters, while also eliminating the need for organometallic reagents as required in previous strategies. Through experimental investigations, the presence of aryl-cobalt species during the addition process was confirmed, rather than in-situ generation of an arylboron reagent. Furthermore, the successful attainment of the R absolute configuration through aryl addition was demonstrated.