A metal-free strategy to construct fluoroalkyl-olefin linkages using fluoroalkanes

Kaushik Chakrabarti; Michael M Wade Wolfe; Shuo Guo; Joseph W Tucker; Jisun Lee; Nathaniel K Szymczak

doi:10.1039/d3sc05616c

A metal-free strategy to construct fluoroalkyl-olefin linkages using fluoroalkanes

Chem Sci. 2023 Dec 22;15(5):1752-1757. doi: 10.1039/d3sc05616c. eCollection 2024 Jan 31.

Authors

Kaushik Chakrabarti¹, Michael M Wade Wolfe¹, Shuo Guo², Joseph W Tucker³, Jisun Lee³, Nathaniel K Szymczak¹

Affiliations

¹ Department of Chemistry, University of Michigan, 930 N. University Ann Arbor Michigan 48109 USA nszym@umich.edu.
² College of Chemistry and Chemical Engineering, Inner Mongolia University Hohhot 010021 P.R. China.
³ Medicine Design, Pfizer Inc. Eastern Point Rd Groton CT 06340 USA.

Abstract

We present a metal-free strategy to access fluoroalkyl-olefin linkages from fluoroalkane precursors and vinyl-pinacol boronic ester (BPin) reagents. This reaction sequence is templated by the boron reagent, which induces C-C bond formation upon oxidation. We developed this strategy into a one-pot synthetic protocol using RCF₂H precursors directly with vinyl-BPin reagents in the presence of a Brønsted base, which tolerated oxygen- and nitrogen-containing heterocycles, and aryl halogens. We also found that HCF₃ (HCF-23; a byproduct of the Teflon industry) and CH₂F₂ (HCF-32; a low-cost refrigerant) are amenable to this protocol, representing distinct strategies to generate RCF₂H and RCF₃ molecules. Finally, we demonstrate that the vinyldifluoromethylene products can be readily derivatized, representing an avenue for late-stage modification after installing the fluoroalkyl unit.