89. Differences in mechanisms between divalent and univalent copper complexes-catalyzed hydroacylation of terminal alkyne with aldehyde and amine

Yuan, X.-A.;* Tao, R.; Li, D; Zhang, X.; Jiang, Y.-Y.; Liu, P.; Bi, S. Mol. Catal. 2024, 563, 114272.

2024-09-14 15:43

Yuan, X.-A.;* Tao, R.; Li, D; Zhang, X.; Jiang, Y.-Y.; Liu, P.;  Bi, S.  Mol. Catal. 2024, 563, 114272. Download Link

DFT calculations are carried out to investigate the hydroacylation mechanism based on copper-catalyzed A3- coupling tandem reaction of terminal alkynes, aldehydes and amines. The study reveals significant mechanistic differences between copper(I) and copper(II) catalysts. In the Cu(II)-catalyzed system, incorporation of a ligand is deemed necessary for facilitating reactivity, whereas no ancillary ligand is required in Cu(I) system. The ligand, through coordination with the Cu(II) center, stabilizes the key transition states and intermediates, resulting in a substantial reduction in the activation barrier. The ligand exhibits varying effect, with the order of activity being piperidine > pyridine > DMSO, correlating positively with the interaction energy between ligand and Cu complex. Additionally, the study sheds light on the pivotal roles played by the catalyst, ligand, base, and solvent DMSO in the reaction.



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