Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst
Electrochemical carbon dioxide reduction to ethanol suggests a potential strategy to reduce the CO2 level and generate valuable liquid fuels, while the development of low-cost catalysts with high activity and selectivity remains a major challenge. In this work, a bimetallic, low-entropy state Cu3 Sn...
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sg-ntu-dr.10356-1615942023-07-14T16:06:37Z Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst Shang, Longmei Lv, Ximeng Zhong, Lixiang Li, Shuzhou Zheng, Gengfeng School of Materials Science and Engineering Engineering::Materials CO₂ Reduction CuSn Alloy Electrochemical carbon dioxide reduction to ethanol suggests a potential strategy to reduce the CO2 level and generate valuable liquid fuels, while the development of low-cost catalysts with high activity and selectivity remains a major challenge. In this work, a bimetallic, low-entropy state Cu3 Sn catalyst featuring efficient electrocatalytic CO2 reduction to ethanol is developed. This low-entropy state Cu3 Sn catalyst allows a high Faradaic efficiency of 64% for ethanol production, distinctively from the high-entropy state Cu6 Sn5 catalyst with the main selectivity toward producing formate. At an industry-level current density of -900 mA cm-2 , the Cu3 Sn catalyst exhibited excellent stability for over 48 h in a membrane-electrode based electrolyzer. Theoretical calculations indicate that the high ethanol selectivity on Cu3 Sn is attributed to its enhanced adsorption of several key intermediates in the ethanol production pathway. Moreover, the life-cycle assessment reveals that using the Cu3 Sn electrocatalyst, an electrochemical CO2 -to-ethanol electrolysis system powered by wind electricity can lead to a global warming potential of 120 kgCO2-eq for producing 1 ton of ethanol, corresponding to a 55% reduction of carbon emissions compared to the conventional bio-ethanol process. National Supercomputing Centre (NSCC) Singapore Submitted/Accepted version The authors thank the following funding agencies for supporting this work: the National Key Research and Development Program of China (2018YFA0209401, 2017YFA0206901), the National Science Foundation of China (22025502, 21975051, 21773036), the Science and Technology Commission of Shanghai Municipality (21DZ1206800, 19XD1420400), and the Shanghai Municipal Education Commission (2019-01-07-00-07-E00045). The authors acknowledge financial support from the Academic Research Fund Tier 1 (RG8/20) and computing resources from the National Supercomputing Centre Singapore. 2022-09-09T05:58:30Z 2022-09-09T05:58:30Z 2022 Journal Article Shang, L., Lv, X., Zhong, L., Li, S. & Zheng, G. (2022). Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst. Small Methods, 6(2), 2101334-. https://dx.doi.org/10.1002/smtd.202101334 2366-9608 https://hdl.handle.net/10356/161594 10.1002/smtd.202101334 35174990 2-s2.0-85120846785 2 6 2101334 en RG8/20 Small Methods This is the peer reviewed version of the following article: Shang, L., Lv, X., Zhong, L., Li, S. & Zheng, G. (2022). Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst. Small Methods, 6(2), 2101334-, which has been published in final form at https://doi.org/10.1002/smtd.202101334. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Materials CO₂ Reduction CuSn Alloy Shang, Longmei Lv, Ximeng Zhong, Lixiang Li, Shuzhou Zheng, Gengfeng Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
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Electrochemical carbon dioxide reduction to ethanol suggests a potential strategy to reduce the CO2 level and generate valuable liquid fuels, while the development of low-cost catalysts with high activity and selectivity remains a major challenge. In this work, a bimetallic, low-entropy state Cu3 Sn catalyst featuring efficient electrocatalytic CO2 reduction to ethanol is developed. This low-entropy state Cu3 Sn catalyst allows a high Faradaic efficiency of 64% for ethanol production, distinctively from the high-entropy state Cu6 Sn5 catalyst with the main selectivity toward producing formate. At an industry-level current density of -900 mA cm-2 , the Cu3 Sn catalyst exhibited excellent stability for over 48 h in a membrane-electrode based electrolyzer. Theoretical calculations indicate that the high ethanol selectivity on Cu3 Sn is attributed to its enhanced adsorption of several key intermediates in the ethanol production pathway. Moreover, the life-cycle assessment reveals that using the Cu3 Sn electrocatalyst, an electrochemical CO2 -to-ethanol electrolysis system powered by wind electricity can lead to a global warming potential of 120 kgCO2-eq for producing 1 ton of ethanol, corresponding to a 55% reduction of carbon emissions compared to the conventional bio-ethanol process. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Shang, Longmei Lv, Ximeng Zhong, Lixiang Li, Shuzhou Zheng, Gengfeng |
| format |
Article |
| author |
Shang, Longmei Lv, Ximeng Zhong, Lixiang Li, Shuzhou Zheng, Gengfeng |
| author_sort |
Shang, Longmei |
| title |
Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
| title_short |
Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
| title_full |
Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
| title_fullStr |
Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
| title_full_unstemmed |
Efficient CO₂ electroreduction to ethanol by Cu₃Sn catalyst |
| title_sort |
efficient co₂ electroreduction to ethanol by cu₃sn catalyst |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161594 |
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1773551242077798400 |