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(<i>Z</i>)-Selective Isomerization of 1,1-Disubstituted Alkenes by Scandium-Catalyzed Allylic C–H Activation

Shao‐Jie Lou, Pan Wang, Xin Wen, Aniket Mishra, Xuefeng Cong, Qingde Zhuo, Kun An, Masayoshi Nishiura, Yi Luo, Zhaomin Hou

2024Journal of the American Chemical Society21 citationsDOI

Abstract

The isomerization of 1,1-disubstituted alkenes through 1,3-hydrogen shift is an atom-efficient route for synthesizing trisubstituted alkenes, which are important moieties in many natural products, pharmaceuticals, and organic materials. However, this reaction often encounters regio- and stereoselectivity challenges, typically yielding E / Z -mixtures of the alkene products or thermodynamically favored ( E )-alkenes. Herein, we report the ( Z )-selective isomerization of 1,1-disubstituted alkenes to trisubstituted ( Z )-alkenes via the regio- and stereospecific activation of an allylic C–H bond. The key to the success of this unprecedented transformation is the use of a sterically demanding half-sandwich scandium catalyst in combination with a bulky quinoline compound, 2- tert -butylquinoline. Deuterium-labeling experiments and density functional theory (DFT) calculations have revealed that 2- tert -butylquinoline not only facilitates the C═C bond transposition through hydrogen shuttling but also governs the regio- and stereoselectivity due to the steric hindrance of the tert -butyl group. This protocol enables the synthesis of diverse ( Z )-configured acyclic trisubstituted alkenes and endocyclic trisubstituted alkenes from readily accessible 1,1-disubstituted alkenes. It offers an efficient and selective route for preparing a new family of synthetically challenging ( Z )-trisubstituted alkenes with broad substrate scope, 100% atom efficiency, high regio- and stereoselectivity, and an unprecedented reaction mechanism.

Topics & Concepts

ChemistryIsomerizationAllylic rearrangementScandiumCatalysisMedicinal chemistryPhotochemistryOrganic chemistryCatalytic C–H Functionalization MethodsAsymmetric Hydrogenation and CatalysisSynthesis and Catalytic Reactions