Progress and Perspectives of Electrocatalytic Transmembrane Hydrogenation
Abstract
H2-free electrochemical hydrogenation of unsaturated organic compounds has garnered considerable attention as a low-carbon and efficient alternative to conventional thermocatalytic hydrogenations. However, in a traditional electrolytic cell, the compounds need to dissolute in electrolyte before participating in the catalytic reactions, resulting in difficulties in enhancing the compounds yield, product separation and purification. A Pd membrane reaction reactor offers a solution to these challenges by enabling the separation of a hydrogenation reaction into electrochemical and chemical processes. Here we summarize the processes of Pd membrane reaction reactor to drive the electrochemical hydrogenation of unsaturated compounds including gaseous reagents. We discuss various modification strategies for Pd catalysts, including the fabrication of Pd nanodendrites, incorporation of foreign metal layers, and formation of Pd alloys with other metals. These strategies aim to enhance catalytic activity by increasing the active area and fine-tuning reactant adsorption. We place significant emphasis on using this membrane reaction reactor to hydrogenate unsaturated bonds, including C=C, C≡C, C≡N, C=O, and O=O bonds and highlight distinct catalysts to enhance catalytic selectivity. Finally, we provide some perspectives on the challenges and outlook for other electrochemical hydrogenation reactions through the Pd membrane reaction reactor.
- This article is part of the themed collections: Journal of Materials Chemistry A Emerging Investigators 2024 and Journal of Materials Chemistry A Recent Review Articles