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Remote Site-Selective C(sp<sup>3</sup>)–H Monodeuteration of Unactivated Alkenes <i>via</i> Chain-Walking Strategy

Heng Song, Wenjing Zhang, Hu Zhou, Jingjing Wei, Xingwei Cai, Fu Yang, Wei Li, Chen Xu

2023ACS Catalysis20 citationsDOI

Abstract

The installation of deuterium atoms at distal C(sp 3 )–H bonds is a longstanding synthetic challenge. Through the synergistic combination of chain-walking strategy and transfer hydrodeuteration, we present the remote transfer hydrodeuteration of unactivated alkenes at distal C(sp 3 )–H sites, aided by native directing groups, using readily available pinacolborane (HBpin) and D 2 O as H – and D + sources, respectively. Significantly, this tactic offers a complementary pattern to conventional hydrodeuteration methods that adduct H–D, or its surrogate, to unsaturated bonds. Both experimental data and density functional theory (DFT) studies demonstrated the critical role of the directing group in guiding the olefin isomerization process. DFT calculations suggest that it was the in situ -generated Ni(II)–hydride rather than Ni(I)–hydride that performed as active intermediates in the olefin insertion and isomerization steps.

Topics & Concepts

IsomerizationHydrideChemistryOlefin fiberDensity functional theoryDeuteriumAdductPhotochemistryFunctional groupCatalysisComputational chemistryMedicinal chemistryStereochemistryHydrogenOrganic chemistryPhysicsQuantum mechanicsPolymerChemical Reactions and IsotopesAsymmetric Hydrogenation and CatalysisEpigenetics and DNA Methylation
Remote Site-Selective C(sp<sup>3</sup>)–H Monodeuteration of Unactivated Alkenes <i>via</i> Chain-Walking Strategy | Litcius