Ag2Cu2O3- a catalyst template material for selective electroreduction of CO to C(2+)products

Marti N, Reller C, Macauley C, Löffler M, Reichert A, Reichbauer T, Vetter KM, Schmid B, Mclaughlin D, Leidinger P, Reinisch D, Vogl C, Mayrhofer K, Katsounaros I, Schmid G (2020)

Publication Type: Journal article

Publication year: 2020

Journal

Energy and Environmental Science Royal Society of Chemistry

Book Volume: 13

Pages Range: 2993-3006

Journal Issue: 9

DOI: 10.1039/d0ee01100b

Abstract

Although recent years have brought significant progress within the field of electrochemical conversion of CO(2)and CO to value-added chemicals, many more challenges need to be overcome for this technology to be implemented on an industrial level. Rational design of catalyst materials that would enable selective production of desired products at industrially relevant current densities (>200 mA cm(-2)) is most certainly one of them. Here, we introduce Ag2Cu2O3, a mixed-metal oxide, as a starting template material for efficient electroreduction of CO to C(2+)products. By combining results from electrochemical real-time mass spectrometry (EC-RTMS), XRD and XPS we confirmed the template nature of Ag(2)Cu(2)O(3)andin situformation of a fully reduced CuAg bimetallic material during the first minutes of electrolysis. Electrochemical screening of the catalyst revealed significantly varying product distributions when CO2(CO2RR) and CO (CORR) where used as feed gases. During CORR, a faradaic efficiency close to 92% towards C(2+)products at 600 mA cm(-2)was achieved. On the other hand, during CO2RR, CO was found to be the main product under all tested current densities, reaching a maximum faradaic efficiency of 68%. XPS valence band spectra of the bimetallic surface originating from Ag(2)Cu(2)O(3)showed that its d-band electronic structure is noticeably different compared to metallic Ag and Cu, a finding we link to the observed product distributions. Finally, additional microscopy characterization techniques were used to investigate the observed surface reconstruction of the catalyst material under reaction conditions.

Authors with CRIS profile

Chandra Macauley Lehrstuhl für Werkstoffwissenschaften (Allgemeine Werkstoffeigenschaften) Mario Löffler Lehrstuhl für Elektrokatalyse (HIERN) Andreas Reichert Lehrstuhl für Elektrokatalyse (HIERN) Karl Mayrhofer Lehrstuhl für Elektrokatalyse (HIERN)

Additional Organisation(s)

Lehrstuhl für Werkstoffwissenschaften (Allgemeine Werkstoffeigenschaften)

Involved external institutions

Siemens AG, Energy Service Division / Energy Sector DE Germany (DE) Technische Universität München (TUM) DE Germany (DE) Forschungszentrum Jülich / Research Centre Jülich (FZJ) DE Germany (DE)

How to cite

APA:

Marti, N., Reller, C., Macauley, C., Löffler, M., Reichert, A., Reichbauer, T.,... Schmid, G. (2020). Ag2Cu2O3- a catalyst template material for selective electroreduction of CO to C(2+)products. Energy and Environmental Science, 13(9), 2993-3006. https://dx.doi.org/10.1039/d0ee01100b

MLA:

Marti, Nemanja, et al. "Ag2Cu2O3- a catalyst template material for selective electroreduction of CO to C(2+)products." Energy and Environmental Science 13.9 (2020): 2993-3006.

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