Density functional theory (DFT) calculations have been performed to study the mechanism of the recently reported Co-catalyzed ligand-controlled hydroarylation of styrenes as a means of preparing 1,1- or 1,2-diarylalkanes. The present study corroborates the previously proposed three-step mechanism, comprising CH activation (CH oxidative addition), styrene insertion, and reductive elimination. In the CH activation and reductive elimination steps, our calculations suggest that styrene does not coordinate to the Co center. In the insertion step, styrene is inserted into the CoH bond rather than the CoC bond. Furthermore, the rate- and regiodetermining step is found to be CC reductive elimination. It is significant that the regioselectivity observed experimentally has been successfully reproduced by our calculations. More importantly, in analyzing the origin of the ligand-controlled regioselectivity, we have found that the steric effects of different ligands mainly determine the observed regioselectivity. Both the shape (i.e., umbrella-up or umbrella-down) and bulkiness of the ligand contribute to the steric effect.

• 出版日期2013-9-2
• 单位北京科技大学; 中国科学技术大学