Abstract
Asymmetric transfer hydrogenation of ketones is an important chemical reaction. In aqueous solution, Ru(p-cymene)[TsDPEN] is an efficient catalyst for asymmetric transfer hydrogenation via a metal–ligand bifunctional mechanism with either 2-propanol or formate as hydrogen donors. Here, we provide novel insight for two key steps in the catalytic cycle of transfer hydrogenation cycle, using a computational model of Ru(p-cymene)[TsDPEN] with an explicit aqueous solvent. Employing ab initio molecular dynamics simulations, we model the hydride transfer between formate and the protonated and deprotonated catalyst, and the dissociation of the ruthenium-formato complex. It is shown that the aqueous solvent provides a significant contribution to the reaction barriers, increasing the hydride transfer barrier, while decreasing the dissociation barrier for ruthenium-formato complex, when compared with a gas-phase model. These effects can be attributed to hydrogen-bond structure around the formate, which favors the fo...
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