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Promoting CO2 methanation via ligand-stabilized metal oxide clusters as hydrogen-donating motifs.

Nature communications (2020-12-05)
Yuhang Li, Aoni Xu, Yanwei Lum, Xue Wang, Sung-Fu Hung, Bin Chen, Ziyun Wang, Yi Xu, Fengwang Li, Jehad Abed, Jianan Erick Huang, Armin Sedighian Rasouli, Joshua Wicks, Laxmi Kishore Sagar, Tao Peng, Alexander H Ip, David Sinton, Hao Jiang, Chunzhong Li, Edward H Sargent
RESUMEN

Electroreduction uses renewable energy to upgrade carbon dioxide to value-added chemicals and fuels. Renewable methane synthesized using such a route stands to be readily deployed using existing infrastructure for the distribution and utilization of natural gas. Here we design a suite of ligand-stabilized metal oxide clusters and find that these modulate carbon dioxide reduction pathways on a copper catalyst, enabling thereby a record activity for methane electroproduction. Density functional theory calculations show adsorbed hydrogen donation from clusters to copper active sites for the *CO hydrogenation pathway towards *CHO. We promote this effect via control over cluster size and composition and demonstrate the effect on metal oxides including cobalt(II), molybdenum(VI), tungsten(VI), nickel(II) and palladium(II) oxides. We report a carbon dioxide-to-methane faradaic efficiency of 60% at a partial current density to methane of 135 milliampere per square centimetre. We showcase operation over 18 h that retains a faradaic efficiency exceeding 55%.

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Sigma-Aldrich
Nickel(II) chloride, anhydrous, powder, 99.99% trace metals basis
Sigma-Aldrich
Cobalt(II) chloride, AnhydroBeads, −10 mesh, 99.9% trace metals basis