Poisoning effect of adsorbed CO during CO2 electroreduction on late transition metals

Sneha A. Akhade; Wenjia Luo; Xiaowa Nie; Nicole J. Bernstein; Aravind Asthagiri; Michael J. Janik

doi:10.1039/C4CP03340J

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Poisoning effect of adsorbed CO during CO₂ electroreduction on late transition metals†

Sneha A. Akhade,^a Wenjia Luo,^b Xiaowa Nie,^b Nicole J. Bernstein,^a Aravind Asthagiri^b and Michael J. Janik*^a

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* Corresponding authors

^a Department of Chemical Engineering, Fenske Laboratory, Pennsylvania State University, State College, PA 16802, USA
E-mail: mjanik@psu.edu

^b William G. Lowrie Department of Chemical & Biomolecular Engineering, The Ohio State University, Columbus, Ohio 43210, USA

Abstract

Copper cathodes, at sufficiently negative potentials, are selective for hydrocarbon production during the electrochemical reduction of carbon dioxide. Other metals, such as Pt, Fe, Ni and Co, produce low to zero hydrocarbons. We employ density functional theory to examine the coverage of reaction intermediates under CO₂ electroreduction conditions. A detailed thermodynamic analysis suggests that a high coverage of adsorbed CO at relevant reduction potentials blocks the metal surface sites for H adsorption, preventing C–H bond formation. The potential-dependent energetics of H adsorption and CO formation are highly sensitive to the surface coverage of the adsorbed species. The formation of surface carbon as a competing adsorption intermediate is also explored at relevant reduction potentials. CO₂ electroreduction to hydrocarbons over metals active for the thermal reduction process (Fe, Ni, Co, Pt) would require a H supply for C–H bond formation that is competitive with CO* and C* at the surface.

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Article information

DOI: https://doi.org/10.1039/C4CP03340J
Article type: Communication
Submitted: 27 Jul 2014
Accepted: 19 Aug 2014
First published: 20 Aug 2014

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Phys. Chem. Chem. Phys., 2014,16, 20429-20435

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Poisoning effect of adsorbed CO during CO₂ electroreduction on late transition metals

S. A. Akhade, W. Luo, X. Nie, N. J. Bernstein, A. Asthagiri and M. J. Janik, Phys. Chem. Chem. Phys., 2014, 16, 20429 DOI: 10.1039/C4CP03340J

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