Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements
Single atom catalysts (SACs) are constituted by isolated active metal centers, which are heterogenized on inert supports such as graphene, porous carbon, and amorphous carbon. The thermal stability, electronic properties, and catalytic activities of the metal center can be controlled via manipulatin...
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sg-ntu-dr.10356-1737482024-02-26T06:34:09Z Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements Huang, Jian Zhang, Qiao Ding, Jie Zhai, Yueming School of Chemical and Biomedical Engineering Engineering Single atom catalysts Electrochemical conversion Single atom catalysts (SACs) are constituted by isolated active metal centers, which are heterogenized on inert supports such as graphene, porous carbon, and amorphous carbon. The thermal stability, electronic properties, and catalytic activities of the metal center can be controlled via manipulating the neighboring heteroatoms such as nitrogen, oxygen, and sulfur. Due to the atomical dispersion of the active catalytic centers, the amount of metal required for catalysis can be decreased. Furthermore, new possibilities are offered to easily control the selectivity of a given transformation process as well as to improve turnover frequencies and turnover numbers of target reactions. Among them, Fe–N–C single atom catalysts own special electronic structure, and have been widely used in many fields of electrocatalysis. This review aims to summarize the synthesis of Fe–N–C based on anchoring individual iron atoms on carbon/graphene. The spin-related properties of Fe–N–C catalysts are described, including the relation between spin and electron structure of Fe–Nx as well as the coupling between electronic structure of Fe–Nx and electronic (orbit) of CO2, N2 and O2. Next, mechanistic investigations conducted to understand the specific behavior of Fe–N–C catalysts are highlighted, including C, N, O electro-reduction. Finally, some issues related to the future developments of Fe–N–C are put forward and corresponding feasible solutions are offered. Published version We are grateful for the financial support from National Natural Science Foundation of China (No. 21974103) and the start-up funds of Wuhan University. 2024-02-26T06:34:09Z 2024-02-26T06:34:09Z 2022 Journal Article Huang, J., Zhang, Q., Ding, J. & Zhai, Y. (2022). Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements. Materials Reports: Energy, 2(3), 100141-. https://dx.doi.org/10.1016/j.matre.2022.100141 2666-9358 https://hdl.handle.net/10356/173748 10.1016/j.matre.2022.100141 2-s2.0-85144882129 3 2 100141 en Materials Reports: Energy © 2022 Chongqing Xixin Tianyuan Data & Information Co., Ltd. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co. Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Engineering Single atom catalysts Electrochemical conversion Huang, Jian Zhang, Qiao Ding, Jie Zhai, Yueming Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| description |
Single atom catalysts (SACs) are constituted by isolated active metal centers, which are heterogenized on inert supports such as graphene, porous carbon, and amorphous carbon. The thermal stability, electronic properties, and catalytic activities of the metal center can be controlled via manipulating the neighboring heteroatoms such as nitrogen, oxygen, and sulfur. Due to the atomical dispersion of the active catalytic centers, the amount of metal required for catalysis can be decreased. Furthermore, new possibilities are offered to easily control the selectivity of a given transformation process as well as to improve turnover frequencies and turnover numbers of target reactions. Among them, Fe–N–C single atom catalysts own special electronic structure, and have been widely used in many fields of electrocatalysis. This review aims to summarize the synthesis of Fe–N–C based on anchoring individual iron atoms on carbon/graphene. The spin-related properties of Fe–N–C catalysts are described, including the relation between spin and electron structure of Fe–Nx as well as the coupling between electronic structure of Fe–Nx and electronic (orbit) of CO2, N2 and O2. Next, mechanistic investigations conducted to understand the specific behavior of Fe–N–C catalysts are highlighted, including C, N, O electro-reduction. Finally, some issues related to the future developments of Fe–N–C are put forward and corresponding feasible solutions are offered. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Huang, Jian Zhang, Qiao Ding, Jie Zhai, Yueming |
| format |
Article |
| author |
Huang, Jian Zhang, Qiao Ding, Jie Zhai, Yueming |
| author_sort |
Huang, Jian |
| title |
Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| title_short |
Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| title_full |
Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| title_fullStr |
Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| title_full_unstemmed |
Fe–N–C single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| title_sort |
fe–n–c single atom catalysts for the electrochemical conversion of carbon, nitrogen and oxygen elements |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173748 |
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