Selective CO reduction towards a single upgraded product: a minireview on multi-elemental copper-free electrocatalysts
Electrocatalytic conversion of the greenhouse gas carbon dioxide to liquid fuels or upgraded chemicals is a critical strategy to mitigate anthropogenic climate change. Selectivity for one product at high activity and stability is the main obstacle for economic viability as a successor technology. We...
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| Veröffentlicht in: | Catalysis science & technology 2021-02, Vol.11 (2), p.416-424 |
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| container_title | Catalysis science & technology |
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| creator | Wilsey, Madeleine K Cox, Connor P Forsythe, Ryland C McCarney, Luke R Müller, Astrid M |
| description | Electrocatalytic conversion of the greenhouse gas carbon dioxide to liquid fuels or upgraded chemicals is a critical strategy to mitigate anthropogenic climate change. Selectivity for one product at high activity and stability is the main obstacle for economic viability as a successor technology. We highlight the key challenges in CO
2
reduction electrocatalysis, review quantitative performance data of metal-containing multi-elemental copper-free materials, and outline observed trends, with the aim to accelerate the development of advanced, high-performance CO
2
reduction catalysts.
Electrocatalytic conversion of the greenhouse gas carbon dioxide to liquid fuels or upgraded chemicals is a critical strategy to mitigate anthropogenic climate change. To this end, we urgently need high-performance CO
2
reduction catalysts. |
| doi_str_mv | 10.1039/d0cy02010a |
| format | Article |
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2
reduction electrocatalysis, review quantitative performance data of metal-containing multi-elemental copper-free materials, and outline observed trends, with the aim to accelerate the development of advanced, high-performance CO
2
reduction catalysts.
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2
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2
reduction electrocatalysis, review quantitative performance data of metal-containing multi-elemental copper-free materials, and outline observed trends, with the aim to accelerate the development of advanced, high-performance CO
2
reduction catalysts.
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2
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2
reduction electrocatalysis, review quantitative performance data of metal-containing multi-elemental copper-free materials, and outline observed trends, with the aim to accelerate the development of advanced, high-performance CO
2
reduction catalysts.
Electrocatalytic conversion of the greenhouse gas carbon dioxide to liquid fuels or upgraded chemicals is a critical strategy to mitigate anthropogenic climate change. To this end, we urgently need high-performance CO
2
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| source | Royal Society Of Chemistry Journals 2008- |
| title | Selective CO reduction towards a single upgraded product: a minireview on multi-elemental copper-free electrocatalysts |
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