Abstract
Notwithstanding the common use of boronic acids in catalysis, the design and synthesis of efficient chiral boronic acids remains a formidable challenge. Herein we disclose a rational design and a concise synthesis of a series of novel C2-symmetric disubstituted boronic acids, or borinic acids. Chiral borinic acids have been found to be excellent agents that can achieve highly enantioselective desymmetrization of 2,2-disubstituted-1,3-propanediols, providing chiral diols with a quaternary stereocenter, which has been regarded in recent years as challenging. A wide range of substrates are tolerated in this reaction, providing a series of chiral diols with high enantioselectivity. The presence of the tetracoordinate borinate in the catalytic cycle has been proven by 11B NMR studies, and a stereocontrol model has been proposed.
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