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Dialkylation of CF2 unit enabled by cobalt electron-shuttle catalysis

Changqing Rao, Tianze Zhang, Hanmin Huang

2024Nature Communications18 citationsDOIOpen Access PDF

Abstract

The incorporation of difluoromethylene (CF2) group into chemical molecules often imparts desirable properties such as lipophilicity, binding affinity, and thermal stability. Consequently, the increasing demand for gem-difluoroalkylated compounds in drug discovery and materials science has continued to drive the development of practical methods for their synthesis. However, traditional synthetic methods such as deoxofluorination often confront challenges including complicated substrate synthesis sequences and poor functional group compatibility. In this context, we herein report a metal electron-shuttle catalyzed, modular synthetic methodology for difluoroalkylated compounds by assembling two C(sp3) fragments across CF2 unit in a single step. The approach harnesses a difluoromethylene synthon as a biradical linchpin, achieving the construction of two C(sp3)-CF2 bonds through radical addition to two different π-unsaturated molecules. This catalytic protocol is compatible with broad range of coupling partners including diverse olefins, iminiums, and hydrazones, supporting endeavors in the efficient construction of C(sp3)-rich difluoroalkylated molecules. The difluoromethylene subunit can confer advantageous biological properties to compounds of interest, and the incorporation of this moiety in mild and selective conditions is an active pursuit in synthetic organic chemistry. Here, the authors append a CF2 biradical synthon to two carbon units via cobalt catalysis.

Topics & Concepts

CobaltUnit (ring theory)CatalysisShuttle vectorChemistryCombinatorial chemistryOrganic chemistryPsychologyBiochemistryRecombinant DNAGeneVector (molecular biology)Mathematics educationAmmonia Synthesis and Nitrogen ReductionInorganic Fluorides and Related CompoundsFluorine in Organic Chemistry