How Does the Catalyst Affect the Reaction Pathway? DFT Analysis of the Mechanism and Selectivity in the 1,6-Diyne Ester Cycloisomerization

Abstract

The present study reports a detailed theoretical analysis of the mechanistic and chemoselectivity features in 1,6-diyne ester cycloisomerization. The energy profiles for three different catalysts, namely, [AuI(PPhMe2)(NCMe)]+, [AuIII(Cl)2(pic)] (pic = 2-picolinate), and PtCl2, were investigated. The DFT calculations reveal that all of these catalysts entail similar 1,3-acyloxy migration and 5-exo-dig cyclization steps, whereas completely distinct reaction pathways are observed after the formation of the putative vinyl metal complex intermediates. In the [AuI(PPhMe2)(NCMe)]+ system, the configuration of the phosphine ligand can explain the exclusive chemoselectivity of the Friedel–Crafts reaction over the 1,5-acyl migration. On the other hand, in the [AuIII(Cl)2(pic)] and PtCl2 systems, the 1,5-acyl migration is assisted by the chloride ligand, offering an alternative mechanism that can justify a reasonable activation barrier and the corresponding stereochemical feature in the reaction. Moreover, the [AuI(...