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Head, Marianna C.; Joseph, Benjamin T.; Keith, Jason M.; Chianese, Anthony R. (, Organometallics)
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Kirlin, Fallyn L.; Borden, Olivia J.; Head, Marianna C.; Kelly, Sophie E.; Chianese, Anthony R. (, Organometallics)
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Pham, John; Jarczyk, Cole E.; Reynolds, Eamon F.; Kelly, Sophie. E.; Kim, Thao; He, Tianyi; Keith, Jason M.; Chianese, Anthony R. (, Chemical Science)null (Ed.)We previously demonstrated that Milstein's seminal diethylamino-substituted PNN-pincer–ruthenium catalyst for ester hydrogenation is activated by dehydroalkylation of the pincer ligand, releasing ethane and eventually forming an NHEt-substituted derivative that we proposed is the active catalyst. In this paper, we present a computational and experimental mechanistic study supporting this hypothesis. Our DFT analysis shows that the minimum-energy pathways for hydrogen activation, ester hydrogenolysis, and aldehyde hydrogenation rely on the key involvement of the nascent N–H group. We have isolated and crystallographically characterized two catalytic intermediates, a ruthenium dihydride and a ruthenium hydridoalkoxide, the latter of which is the catalyst resting state. A detailed kinetic study shows that catalytic ester hydrogenation is first-order in ruthenium and hydrogen, shows saturation behavior in ester, and is inhibited by the product alcohol. A global fit of the kinetic data to a simplified model incorporating the hydridoalkoxide and dihydride intermediates and three kinetically relevant transition states showed excellent agreement with the results from DFT.more » « less
