Affiliation:
1. School of Chemistry University of Bristol Bristol BS8 1TS U.K.
2. Astex Pharmaceuticals 436 Cambridge Science Park Cambridge CB4 0QA U.K.
Abstract
AbstractThe 1,3‐difunctionalization of unactivated alkenes is an under‐explored transformation that leads to moieties that are otherwise challenging to prepare. Herein, we report a hypervalent iodine‐mediated 1,3‐difluorination of homoallylic (aryl) ethers to give unreported 1,3‐difluoro‐4‐oxy groups with moderate to excellent diastereoselectivity. The transformation proceeds through a different mode of reactivity for 1,3‐difunctionalization, in which a regioselective addition of fluoride opens a transiently formed oxonium intermediate to rearrange an alkyl chain. The optimized protocol is scalable and shown to proceed well with a variety of functional groups and substitution on the alkenyl chain, hence providing ready access to this fluorinated, conformationally controlled moiety.
Funder
Royal Society
HORIZON EUROPE European Research Council
EPSRC Centre for Doctoral Training in Technology Enhanced Chemical Synthesis
Engineering and Physical Sciences Research Council
Biotechnology and Biological Sciences Research Council
Astex Pharmaceuticals