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W2808021299 endingPage "1936" @default.
W2808021299 startingPage "1927" @default.
W2808021299 abstract "This study is devoted to a theoretical investigation of the mechanism, regioselectivity, role of catalyst, and effect of substituent and solvent in the Au-catalyzed cascade reaction between 1,4-diynes and pyrroles. Density functional theory (DFT) calculations indicate that this reaction comprises four principal stages: (1) formation of different intermediates through the first intermolecular hydroarylation, (2) 1,3-H transfer to give the enyne intermediates, (3) a second intermolecular hydroarylation, and (4) a second proton transfer along with Au(I) catalyst regeneration and final product formation. In addition, the computational results suggest that the first regioselectivity is determined by the electronic effects of the reagents. However, the torsional strains within the transition structures (intramolecular cyclization) and electronic effects of enyne intermediates would account for the second regioselectivity. A global reactivity index (GRI) analysis for different gold catalysts (namely, IPrAu+, PPh3Au+, BrettPhosAu+, and JohnPhosAu+) shows the important role of the catalyst in enhancing the electrophilicity of 1,4-diynes, thus making possible a nucleophilic attack between the 2-position of pyrrole and the C1 or C2 position of the 1,4-diyne substrate. In addition, the effects of substituent and solvent were also analyzed in detail and discussed. Apart from being in good agreement with experimental data, the obtained DFT results also provide a notable contribution toward an understanding of the reaction mechanism." @default.
W2808021299 created "2018-06-21" @default.
W2808021299 creator A5008626158 @default.
W2808021299 creator A5022644187 @default.
W2808021299 creator A5027185848 @default.
W2808021299 creator A5062163899 @default.
W2808021299 creator A5080051582 @default.
W2808021299 date "2018-06-12" @default.
W2808021299 modified "2023-10-18" @default.
W2808021299 title "Computational Study on Gold-Catalyzed Cascade Reactions of 1,4-Diynes and Pyrroles: Mechanism, Regioselectivity, Role of Catalyst, and Effects of Substituent and Solvent" @default.
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W2808021299 doi "https://doi.org/10.1021/acs.organomet.8b00201" @default.
W2808021299 hasPublicationYear "2018" @default.