Promoter Effects of Alkali Metal Cations on the Electrochemical Reduction of Carbon Dioxide
Joaquin Resasco(Lawrence Berkeley National Laboratory), Leanne D. Chen(SLAC National Accelerator Laboratory), Ezra L. Clark(Lawrence Berkeley National Laboratory), Charlie Tsai(SLAC National Accelerator Laboratory), Christopher Hahn(SLAC National Accelerator Laboratory), Thomas F. Jaramillo(SLAC National Accelerator Laboratory), Karen Chan(SLAC National Accelerator Laboratory), Alexis T. Bell(Lawrence Berkeley National Laboratory)
Cited by 1,140Open Access
Abstract
reduction was informed by studies of the reduction of glyoxal and CO, key intermediates along the reaction pathway to final products. Density functional theory calculations show that the alkali metal cations influence the distribution of products formed as a consequence of electrostatic interactions between solvated cations present at the outer Helmholtz plane and adsorbed species having large dipole moments. The observed trends in activity with cation size are attributed to an increase in the concentration of cations at the outer Helmholtz plane with increasing cation size.
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