Catalytic asymmetric oxidative coupling between C(sp3)–H bonds and carboxylic acids

13 August 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Direct enantioselective functionalization of C(sp3)–H bonds in organic molecules could fundamentally transform the synthesis of chiral molecules. In particular, the enantioselective oxidation of these bonds would dramatically change the production of chiral alcohols and esters, which are prevalent in natural products, pharmaceuticals, and fine chemicals. Remarkable advances have been made in the enantioselective construction of carbon-carbon and carbon-nitrogen bonds through C(sp3)–H bond functionalization. However, the direct enantioselective formation of carbon-oxygen bonds from C(sp3)–H bonds remains a considerable challenge. We herein report a highly enantioselective C(sp3)–H bonds oxidative coupling with carboxylic acids using molecular copper catalyst activated by blue light. The method applies to allylic and propargyl C–H bonds and more importantly employs various carboxylic acids as oxygenating agents. By this method, we have successfully synthesized a range of chiral esters directly from readily available alkenes and alkynes, greatly simplifying the synthesis of chiral esters and related alcohols.

Keywords

Enantioselectivity
Oxidative Coupling
C(sp3)-H Functionalization
Copper Catalysis
C-O Bond Formation

Supplementary materials

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Title
Supplementary Materials for Catalytic asymmetric oxidative coupling between C(sp3)–H bonds and carboxylic acids
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Supplementary Materials for Catalytic asymmetric oxidative coupling between C(sp3)–H bonds and carboxylic acids
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