Electrocatalytic hydrogenation is a fascinating strategy to hydrogenate biogenic compounds at ambient conditions by replacing the thermal and H2 inputs by cathodic potential. This work compares the performance of this approach (in aqueous phase at room temperature) for a variety of model oxygenated compounds reacted over a series of metals. The target functionalities were carbonyl groups, aromatic rings, and ether bonds. All metals explored (Pt, Rh, Pd, Cu) are active for the reduction of carbonyl compounds to alcohols. For instance, conversion rates of benzaldehyde increased as a function of metal as: Pt
Revised: January 13, 2020 |
Published: December 21, 2018
Citation
Sanyal U., J.A. Lopez-Ruiz, A.B. Padmaperuma, J.D. Holladay, and O.Y. Gutierrez-Tinoco. 2018.Electrocatalytic Hydrogenation of Oxygenated Compounds in Aqueous Phase.Organic Process Research & Development 22, no. 12:1590-1598.PNNL-SA-137711.doi:10.1021/acs.oprd.8b00236