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Ligand-enabled Ni-catalysed dicarbofunctionalisation of alkenes with diverse native functional groups

Daoming Wang, Hui-Mei Shan, Li‐Qin She, Yu-Qing He, Yi‐Chen Wu, Yong Tang, Li‐Ping Xu, Peng Wang

2024Nature Communications14 citationsDOIOpen Access PDF

Abstract

The transition metal-catalysed dicarbofunctionalisation of unactivated alkenes normally requires exogenous strong coordinated directing groups, thus reducing the overall reaction efficiency. Here, we report a ligand-enabled Ni(II)-catalysed dicarbofunctionalisation of unactivated alkenes with aryl/alkenyl boronic acids and alkyl halides as the coupling partners with a diverse range of native functional groups as the directing group. This dicarbofunctionalisation protocol provides an efficient and direct route towards vicinal 1,2-disubstituted alkanes using primary, secondary, tertiary amides, sulfonamides, as well as secondary and tertiary amines under redox-neutral conditions that are challenging to access through conventional methods. The key to the success of this reaction is the use of a bulky β-diketone ligand, which could enable the insertion of alkene to aryl-Ni(II) species, stabilize the alkyl-Ni(II) species and inhibit the homolytic alkyl-Ni(II) cleavage, supporting by both experimental and computational studies. This dicarbofunctionalisation reaction features the use of native directing group, a broad substrate scope, and excellent scalability. The dicarbofunctionalisation of unactivated alkenes normally requires the use of exogenous strong coordinated directing groups. Here, the authors report a Ni(II)-catalysed dicarbofunctionalisation of unactivated alkenes with aryl/alkenyl boronic acids and alkyl halides as the coupling partners with a diverse range of native functional groups as the directing group.

Topics & Concepts

ArylAlkylChemistryAlkeneLigand (biochemistry)Functional groupCombinatorial chemistryMedicinal chemistryOrganic chemistryCatalysisBiochemistryReceptorPolymerCatalytic C–H Functionalization MethodsCatalytic Cross-Coupling ReactionsAsymmetric Hydrogenation and Catalysis
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