Modular Access to Quaternary α-Hydroxyl Acetates by Catalytic Cross-Coupling of Alcohols
Guangkuo Zeng, Jiajie Wu, Lingyun Shen, Qingshu Zheng, Zhe‐Ning Chen, Xin Xu, Tao Tu
Abstract
Quaternary α-hydroxyl acids and their derivatives have attracted considerable attention because of their unique and broad functionalities. Herein, we successfully established a selective and modular protocol to access quaternary α-hydroxyl acetates via dehydrogenative cross-coupling of 1,2-diols and primary alcohols by using tris- N -heterocyclic carbene iridium (tris-NHC-Ir, 0.05 mol %) complexes as catalysts and Ba(OH) 2 as the base, along with the generation of byproducts water and hydrogen gas. A plausible mechanism involving dehydrogenation of alcohols, aldol-condensation, and 1,2-alkyl rearrangement reactions was proposed, in which 1,2-alkyl rearrangement was responsible for the construction of the quaternary carbon center.