Ir-Catalyzed Regioselective Dihydroboration of Thioalkynes toward Gem -Diboryl Thioethers.
Yong WangYuxuan LiLei WangShengtao DingLijuan SongXinhao ZhangYun-Dong WuJianwei SunPublished in: Journal of the American Chemical Society (2023)
While 1,1-diboryl ( gem -diboryl) compounds are valuable synthetic building blocks, currently, related studies have mainly focused on those 1,1-diboryl alkanes without a hetero functional group in the α-position. gem -Diboryl compounds with an α-hetero substituent, though highly versatile, have been limitedly accessible and thus rarely utilized. Herein, we have developed the first α-dihydroboration of heteroalkynes leading to the efficient construction of gem -diboryl, hetero-, and tetra-substituted carbon centers. This straightforward, practical, mild, and atom-economic reaction is an attractive complement to the conventional multistep synthetic strategy relying on deprotonation of gem -diborylmethane by a strong base. Specifically, [Ir(cod)(OMe)] 2 was found to be uniquely effective for this process of thioalkynes, leading to excellent α-regioselectivity when delivering the two boryl groups, which is remarkable in view of the many competitive paths including monohydroboration, 1,2-dihydroboration, dehydrodiboration, triboration, tetraboration, etc. Control experiments combined with DFT calculations suggested that this process involves two sequential hydroboration events. The second hydroboration requires a higher energy barrier due to severe steric repulsion in generating the highly congested α-sulfenyl gem -diboryl carbon center, a structural motif that was almost unknown before.