posted on 2024-04-04, 20:05authored byWenhua Lin, Aurélien Alix, Régis Guillot, Vincent Gandon, Christophe Bour
This study addresses the challenges associated with vinyl
cation
generation, a process that traditionally requires quite specific counterions.
Described herein is a novel intramolecular vinylation of arenes catalyzed
by aluminum(III) chloride, utilizing practical conditions and readily
available vinyl triflates derived from 2-aceto-3-arylpropionates.
Comprehensive experimental data support diverse carbocycle synthesis,
exemplified by indenes and higher analogues. Control experiments verify
the applicability of the vinylation protocol, and synthetic applications
showcase a potent tubulin polymerization inhibitor with anticancer
properties. Density functional theory computations reveal a Lewis-acid-driven
mechanism involving triflate moiety abstraction to generate a reactive
vinyl cation.