Abstract
One of the most straightforward approaches to access chiral silanes is catalytic enantioselective hydrosilylation. Although significant advances have been achieved in enantioselective construction of either a carbon-stereogenic center or a silicon-stereogenic center through enantioselective hydrosilylation, simultaneous establishment of a carbon- and a silicon-stereogenic center in an acyclic molecule through a single intermolecular hydrosilylation remained undeveloped. Herein, an unprecedented cobalt-catalyzed regio-, diastereo- and enantioselective hydrosilylation of 1,3-dienes is presented, enabling construction of a carbon- and a silicon-stereogenic center in a single intermolecular transformation. A wide range of chiral silanes bearing a carbon- and a silicon-stereogenic center were generated in high efficiency and stereoselectivity. Functionalization of the enantioenriched silanes delivered a variety of valuable chiral building blocks that are otherwise difficult to access.
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