引用本文:
Di Wang, Qing-Song Chen, Yi-Ran Lin, Yun-Xin Hou, Wei Han, Juan Yang, Xin Li, Zhen-Hai Wen. Tuning strategies and electrolyzer design for Bi-based nanomaterials towards efficient CO2 reduction to formic acid[J]. Chinese Journal of Structural Chemistry,
2024, 43(8): 100346.
doi:
10.1016/j.cjsc.2024.100346
Citation: Di Wang, Qing-Song Chen, Yi-Ran Lin, Yun-Xin Hou, Wei Han, Juan Yang, Xin Li, Zhen-Hai Wen. Tuning strategies and electrolyzer design for Bi-based nanomaterials towards efficient CO2 reduction to formic acid[J]. Chinese Journal of Structural Chemistry, 2024, 43(8): 100346. doi: 10.1016/j.cjsc.2024.100346
Citation: Di Wang, Qing-Song Chen, Yi-Ran Lin, Yun-Xin Hou, Wei Han, Juan Yang, Xin Li, Zhen-Hai Wen. Tuning strategies and electrolyzer design for Bi-based nanomaterials towards efficient CO2 reduction to formic acid[J]. Chinese Journal of Structural Chemistry, 2024, 43(8): 100346. doi: 10.1016/j.cjsc.2024.100346
Tuning strategies and electrolyzer design for Bi-based nanomaterials towards efficient CO2 reduction to formic acid
摘要:
The escalating emissions of greenhouse gases into the atmosphere have precipitated a host of ecology and environmental concerns. Electrochemical reduction of CO2 (CO2RR) is emerging as a sustainable solution for effectively addressing these issues. Leveraging the cost-effectiveness and eco-friendly attributes, Bi-based catalysts have been extensively studied with purpose of enhancing activity and stability. This minireview majorly overview the research advancements in Bi-based catalysts for CO2 electrocatalysis towards formic acid/formate production. Initially, we offer a concise overview of the reaction pathways involved in electrochemical CO2 reduction. Subsequently, we summarize the progress in various types of electrolysis cells and associated influencing factors. Specifically, the electronic structure modulation strategies of Bi-based catalysts including oxide-derived bismuth, bismuth-based chalcogenides, bimetallic and high-entropy compounds etc. have been highlighted. Future research endeavors are poised to delve deeper into comprehending system dynamics during the reaction process to achieve exemplary stability high energy efficiency under industrial conditions.
English
Tuning strategies and electrolyzer design for Bi-based nanomaterials towards efficient CO2 reduction to formic acid
Abstract:
The escalating emissions of greenhouse gases into the atmosphere have precipitated a host of ecology and environmental concerns. Electrochemical reduction of CO2 (CO2RR) is emerging as a sustainable solution for effectively addressing these issues. Leveraging the cost-effectiveness and eco-friendly attributes, Bi-based catalysts have been extensively studied with purpose of enhancing activity and stability. This minireview majorly overview the research advancements in Bi-based catalysts for CO2 electrocatalysis towards formic acid/formate production. Initially, we offer a concise overview of the reaction pathways involved in electrochemical CO2 reduction. Subsequently, we summarize the progress in various types of electrolysis cells and associated influencing factors. Specifically, the electronic structure modulation strategies of Bi-based catalysts including oxide-derived bismuth, bismuth-based chalcogenides, bimetallic and high-entropy compounds etc. have been highlighted. Future research endeavors are poised to delve deeper into comprehending system dynamics during the reaction process to achieve exemplary stability high energy efficiency under industrial conditions.
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