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Catalytic Enantioselective Hydrogen Atom Abstraction Enables the Asymmetric Oxidation of <i>Meso</i> Diols

Nelson Y. S. Lam, Jyoti Dhankhar, Antti S. K. Lahdenperä, Robert J. Phipps

2024Journal of the American Chemical Society14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Desymmetrization of meso diols is an important strategy for the synthesis of chiral oxygen-containing building blocks. Oxidative desymmetrization is an important subclass, but existing methods are often constrained by the need for activated alcohol substrates. We disclose a conceptually distinct strategy toward oxidative diol desymmetrization that is enabled by catalytic enantioselective hydrogen atom abstraction. Following single electron oxidation of a cinchona alkaloid-derived catalyst, enantiodetermining hydrogen atom abstraction generates a desymmetrized ketyl radical intermediate which reacts with either DIAD or O 2 before in situ elimination to form valuable hydroxyketone products. A range of cyclic and acyclic meso diols are competent, defining the absolute configuration of up to four stereocenters in a single operation. As well as providing rapid access to complex hydroxyketones, this work emphasizes the broad synthetic potential of harnessing hydrogen atom abstraction in an enantioselective manner.

Topics & Concepts

ChemistryEnantioselective synthesisCatalysisHydrogen atom abstractionAbstractionHydrogenHydrogen atomAtom (system on chip)Combinatorial chemistryOrganic chemistryEpistemologyEmbedded systemAlkylComputer sciencePhilosophyOxidative Organic Chemistry ReactionsCatalysis and Oxidation ReactionsAsymmetric Synthesis and Catalysis