Electrochemical CO 2 reduction on Au surfaces: mechanistic aspects regarding the formation of major and minor products

• Published in: Physical chemistry chemical physics : PCCP Vol. 19; no. 24; pp. 15856 - 15863
• Main Authors: Cave, Etosha R, Montoya, Joseph H, Kuhl, Kendra P, Abram, David N, Hatsukade, Toru, Shi, Chuan, Hahn, Christopher, Nørskov, Jens K, Jaramillo, Thomas F
• Format: Journal Article
• Language: English
• Published: England 21.06.2017
• ISSN: 1463-9076; 1463-9084
• DOI: 10.1039/C7CP02855E

In the future, industrial CO electroreduction using renewable energy sources could be a sustainable means to convert CO and water into commodity chemicals at room temperature and atmospheric pressure. This study focuses on the electrocatalytic reduction of CO on polycrystalline Au surfaces, which have high activity and selectivity for CO evolution. We explore the catalytic behavior of polycrystalline Au surfaces by coupling potentiostatic CO electrolysis experiments in an aqueous bicarbonate solution with high sensitivity product detection methods. We observed the production of methanol, in addition to detecting the known products of CO electroreduction on Au: CO, H and formate. We suggest a mechanism that explains Au's evolution of methanol. Specifically, the Au surface does not favor C-O scission, and thus is more selective towards methanol than methane. These insights could aid in the design of electrocatalysts that are selective for CO electroreduction to oxygenates over hydrocarbons.