[(NHC)Au~I]-Catalyzed Formation of Conjugated Enones and Enals;An Experimental and Computational Study

摘要

The [(NHC)Au~I]-catalyzed (NHC=N-heterocyclic carbene) formation of alpha,beta-unsaturated carbonyl compounds (enones and enals) from propargylic acetates is described.The reactions occur at 60 °C in 8 h in the presence of an equimolar mixture of [(NHC)AuCl] and AgSbF_6 and produce conjugated enones and enals in high yields.Optimization studies revealed that the reaction is sensitive to the solvent,the NHC,and,to a lesser extent,to the silver salt employed,leading to the use of [(ItBu)AuCl]/ AgSbF_6 in THF as an efficient catalytic system.This transformation proved to have a broad scope,enabling the stereoselective formation of (E)-enones and-enals with great structural diversity.The effect of substitution at the propargylic and acetylenic positions has been investigated,as well as the effect of aryl substitution on the formation of cinnamyl ketones.The presence or absence of water in the reaction mixture was found to be crucial.From the same phenylpropargyl acetates,anhydrous conditions led to the formation of indene compounds via a tandem [3,3] sigmatropic rearrangement/intramolecular hydroarylation process,whereas simply adding water to the reaction mixture produced enone derivatives cleanly.Several mechanistic hypotheses,including the hydrolysis of an allenol ester intermediate and S_N2' addition of water,were examined to gain an insight into this transformation.Mechanistic investigations and computational studies support [(NHC)AuOH],produced in situ from [(NHC)AuSbF_6] and H2O,instead of cationic [(NHC)AuSbF_6] as the catalytically active species.Based on DFT calculations performed at the B3LYP level of theory,a full catalytic cycle featuring an unprecedented transfer of the OH moiety bound to the gold center to the Cident to C bond leading to the formation of a gold-allenolate is proposed.