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<scp>Copper‐Catalyzed</scp> Highly Stereoselective Hydrodifluoroallylation of Cyclopropenes and Alkenyl Boronates with 3,<scp>3‐Difluoroallyl</scp> Sulfonium Salts<sup>†</sup>

Xing Gao, Xiaoxiao Ren, Wei Deng, Xingang Zhang

2023Chinese Journal of Chemistry19 citationsDOIOpen Access PDF

Abstract

Comprehensive Summary Despite the paramount applications of organofluorine compounds in life and materials sciences, efficient strategies for stereoselectively constructing the C(sp 3 )‐CF 2 R bond at the stereogenic center remain limited. Here, we report a copper‐catalyzed hydrodifluoroallylation of cyclopropenes and alkenyl boronates with 3,3‐difluoroallyl sulfonium salts (DFASs). The use of DFASs overcomes the previous challenge of suppressing the reduction of fluoroalkylating reagents with M‐H species. The reaction provides an array of gem ‐difluoroallyl cyclopropanes and borylalkanes with high efficiency and stereoselectivity under mild reaction conditions. Using chiral phosphine ligand could provide gem ‐difluoroallyl borylalkanes with high enantioselectivities, paving a new way for the catalytic asymmetric fluoroalkylation with ubiquitous alkenes. The advantages of this protocol are synthetic convenience, high functional group tolerance, and the synthetic versatility of the resulting gem ‐difluoroallyl cyclopropanes and borylalkanes. The synthetic utility of this approach has also been demonstrated by the diversified transformations of the gem ‐difluoroallylated products and the rapid synthesis of bioactive molecule analogs.

Topics & Concepts

ChemistryStereocenterStereoselectivityPhosphineSulfoniumCatalysisCombinatorial chemistryReagentChemoselectivityLigand (biochemistry)CopperOrganic chemistryStereochemistryEnantioselective synthesisBiochemistryReceptorSalt (chemistry)Fluorine in Organic ChemistryCyclopropane Reaction MechanismsInorganic Fluorides and Related Compounds