Reduction of Gas CO2 to CO with High Selectivity by Ag Nanocube-Based Membrane Cathodes in a Photoelectrochemical System
Photoelectrochemical (PEC) reduction of CO2 is a potential way to simultaneously address environmental problems and reduce the energy crisis. However, traditional conversion of CO2 in aqueous solution has serious drawbacks, such as low solubility, slow diffusion, and complicated existing form of CO2...
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| Published in | Industrial & engineering chemistry research Vol. 59; no. 13; pp. 5536 - 5545 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
01.04.2020
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Photoelectrochemical (PEC) reduction of CO2 is a potential way to simultaneously address environmental problems and reduce the energy crisis. However, traditional conversion of CO2 in aqueous solution has serious drawbacks, such as low solubility, slow diffusion, and complicated existing form of CO2 in water, as well as the competitive H2 evolution from reduction of H2O, leading to unsatisfactory conversion efficiency and poor product selectivity. To overcome these problems, in this work, gas CO2 has been directly introduced to a flow cell, in which a membrane cathode assembly with Ag nanocube electrocatalysts is used. It is surprising to find that with this PEC reduction strategy, the product selectivity of CO can be substantially enhanced with the suppression of competitive H2 evolution. The control experiments and theoretical calculations suggest that the facile mass transfer of gas CO2 to the (100) plane of Ag nanocubes electrocatalysts and the suitable photocurrent density may account for such advantages. |
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| AbstractList | Photoelectrochemical (PEC) reduction of CO₂ is a potential way to simultaneously address environmental problems and reduce the energy crisis. However, traditional conversion of CO₂ in aqueous solution has serious drawbacks, such as low solubility, slow diffusion, and complicated existing form of CO₂ in water, as well as the competitive H₂ evolution from reduction of H₂O, leading to unsatisfactory conversion efficiency and poor product selectivity. To overcome these problems, in this work, gas CO₂ has been directly introduced to a flow cell, in which a membrane cathode assembly with Ag nanocube electrocatalysts is used. It is surprising to find that with this PEC reduction strategy, the product selectivity of CO can be substantially enhanced with the suppression of competitive H₂ evolution. The control experiments and theoretical calculations suggest that the facile mass transfer of gas CO₂ to the (100) plane of Ag nanocubes electrocatalysts and the suitable photocurrent density may account for such advantages. Photoelectrochemical (PEC) reduction of CO2 is a potential way to simultaneously address environmental problems and reduce the energy crisis. However, traditional conversion of CO2 in aqueous solution has serious drawbacks, such as low solubility, slow diffusion, and complicated existing form of CO2 in water, as well as the competitive H2 evolution from reduction of H2O, leading to unsatisfactory conversion efficiency and poor product selectivity. To overcome these problems, in this work, gas CO2 has been directly introduced to a flow cell, in which a membrane cathode assembly with Ag nanocube electrocatalysts is used. It is surprising to find that with this PEC reduction strategy, the product selectivity of CO can be substantially enhanced with the suppression of competitive H2 evolution. The control experiments and theoretical calculations suggest that the facile mass transfer of gas CO2 to the (100) plane of Ag nanocubes electrocatalysts and the suitable photocurrent density may account for such advantages. |
| Author | Lu, Weiwei Xu, Peng Zhang, Yuan Zhang, Jinjin |
| AuthorAffiliation | School of Chemical Engineering and Pharmaceutics |
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| Snippet | Photoelectrochemical (PEC) reduction of CO2 is a potential way to simultaneously address environmental problems and reduce the energy crisis. However,... Photoelectrochemical (PEC) reduction of CO₂ is a potential way to simultaneously address environmental problems and reduce the energy crisis. However,... |
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| SubjectTerms | aqueous solutions carbon dioxide carbon monoxide catalysts cathodes electric current electrochemistry energy hydrogen production mass transfer nanosilver photochemistry process design solubility |
| Title | Reduction of Gas CO2 to CO with High Selectivity by Ag Nanocube-Based Membrane Cathodes in a Photoelectrochemical System |
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