Catalytic Enantioselective Carbon–Oxygen Bond Formation: Phosphine-Catalyzed Synthesis of Benzylic Ethers via the Oxidation of Benzylic C–H Bonds

Creators: Ziegler, Daniel T.; Fu, Gregory C.

Abstract

Benzylic alcohols and ethers are common subunits in bioactive molecules, as well as useful intermediates in organic chemistry. In this Communication, we describe a new approach to the enantioselective synthesis of benzylic ethers through the chiral phosphine-catalyzed coupling of two readily available partners, γ-aryl-substituted alkynoates and alcohols, under mild conditions. In this process, the alkynoate partner undergoes an internal redox reaction. Specifically, the benzylic position is oxidized with good enantioselectivity, and the alkyne is reduced to the alkene.

Additional Information

© 2016 American Chemical Society. Received: August 13, 2016; Publication Date (Web): September 12, 2016. Support has been provided by the National Institutes of Health (National Institute of General Medical Sciences, R01-GM57034 and R01-GM062871). We thank William Reichard, Jun Myun Ahn (X-ray crystallography), and Dr. Michael K. Takase (X-ray crystallography) for assistance. The authors declare no competing financial interest.

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