posted on 2020-09-03, 15:07authored byPedro
D. García-Fernández, Javier Iglesias-Sigüenza, Paula S. Rivero-Jerez, Elena Díez, Enrique Gómez-Bengoa, Rosario Fernández, José M. Lassaletta
The
AuI-catalyzed reaction between terminal alkynes
and aromatic haloalkynes proceeds through divergent pathways depending
on the nature of the catalyst counteranion. Thus, cationic complexes
containing strongly basic NHC ligands and noncoordinating anions such
as BArF4 catalyze the cis haloalkynylation of
the terminal alkyne, whereas introduction of a weakly basic triflate
counteranion results in the stereoselective hydroalkynylation of the
haloalkyne, yielding haloenyne products in good yields and complete
trans selectivity. Experimental and computational studies suggest
that the hydroalkynylation reaction takes place via nucleophilic attack
of the terminal alkyne to the C2 carbon of the activated haloalkyne,
assisted by a concerted proton abstraction by the triflate, and that
the protodeauration is the turnover-limiting step, in agreement with
an observed primary kinetic isotope effect.