Doping engineering of Cu-based catalysts for electrocatalytic CO2 reduction to multi-carbon products
The electrocatalytic carbon dioxide reduction reaction (CO2RR) is a promising technology that uses renewable energy sources to convert excess atmospheric CO2 into high-value multi-carbon (C2+) products. In the CO2RR mechanism, adsorbed *CO is recognized as a crucial intermediate, playing a pivotal r...
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| Published in | Energy & environmental science Vol. 17; no. 16; pp. 5795 - 5818 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Royal Society of Chemistry
13.08.2024
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The electrocatalytic carbon dioxide reduction reaction (CO2RR) is a promising technology that uses renewable energy sources to convert excess atmospheric CO2 into high-value multi-carbon (C2+) products. In the CO2RR mechanism, adsorbed *CO is recognized as a crucial intermediate, playing a pivotal role in facilitating the formation of C2+ products. Currently, Cu-based materials are the most effective catalysts in producing *CO and further coupling it to form C2+ products. However, mono-component Cu catalysts still face some challenges, such as low activity, selectivity, and poor stability. Doping engineering has emerged as a valuable strategy for enhancing the performance of Cu-based catalysts in CO2 electroreduction into C2+ products. This comprehensive review presents the recent advancements in CO2 electroreduction into C2+ products over heteroatom-doped Cu-based catalysts, encompassing metallic heteroatoms such as Pd, Au and Ag, as well as non-metallic heteroatoms like P, B and F. The mechanism of enhanced performance through heteroatom doping is specifically highlighted, providing helpful guidance and avenues for the rational design of Cu-based catalysts. Additionally, the review discusses the challenges and prospects associated with the CO2RR into C2+ products, offering a nuanced perspective on this subject. |
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| AbstractList | The electrocatalytic carbon dioxide reduction reaction (CO2RR) is a promising technology that uses renewable energy sources to convert excess atmospheric CO2 into high-value multi-carbon (C2+) products. In the CO2RR mechanism, adsorbed *CO is recognized as a crucial intermediate, playing a pivotal role in facilitating the formation of C2+ products. Currently, Cu-based materials are the most effective catalysts in producing *CO and further coupling it to form C2+ products. However, mono-component Cu catalysts still face some challenges, such as low activity, selectivity, and poor stability. Doping engineering has emerged as a valuable strategy for enhancing the performance of Cu-based catalysts in CO2 electroreduction into C2+ products. This comprehensive review presents the recent advancements in CO2 electroreduction into C2+ products over heteroatom-doped Cu-based catalysts, encompassing metallic heteroatoms such as Pd, Au and Ag, as well as non-metallic heteroatoms like P, B and F. The mechanism of enhanced performance through heteroatom doping is specifically highlighted, providing helpful guidance and avenues for the rational design of Cu-based catalysts. Additionally, the review discusses the challenges and prospects associated with the CO2RR into C2+ products, offering a nuanced perspective on this subject. |
| Author | Li, Min Zhong, Ziyi You, Shiya Liang, Shuyu He, Hong Xiao, Jiewen Xie, Wenfu Wang, Qiang Zhang, Tianyu |
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| SubjectTerms | Carbon dioxide Carbon sources Catalysts Chemical reduction Copper Doping Electrowinning Gold Palladium Performance enhancement Renewable energy sources |
| Title | Doping engineering of Cu-based catalysts for electrocatalytic CO2 reduction to multi-carbon products |
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