电催化CO2还原用固态电解质研究进展

IF 26 1区 材料科学 Q1 CHEMISTRY, PHYSICAL
Ting Chen, Zeyu Zhao, Shengliang Zhang, Bing Ding, Duo Chen, Gao Chen, Yanping Zhu, Xiaogang Zhang
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引用次数: 0

摘要

近年来,电催化二氧化碳还原反应(CO2RR)作为一种有前景的减少二氧化碳排放和产生增值碳中性燃料的方法受到了广泛关注。电解质是CO2RR装置的关键组成部分,对CO2RR的电催化效率和产物分布有着深远的影响。固体电解质的利用被认为是一种创新和有效的策略,可以解决液体电解质的缺点,例如CO2在水电解质中的溶解度低,液体产品与电解质混合以及碳酸盐交叉导致的碳损失。本文首先综述了电解槽的发展,并讨论了电催化CO2RR系统中存在的液体电解质的局限性。然后,综述了固态电解质的主要类型和关键性能指标,强调了它们在电催化CO2RR方面的显著优势。重要的是,列举了固态电解质在电催化CO2RR研究中的主要应用。最后,对电催化CO2RR技术中固态电解质的未来发展提出了挑战和机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent Progress in Solid‐State Electrolyte for Electrocatalytic CO2 Reduction
The electrocatalytic CO2 reduction reaction (CO2RR) has garnered significant attention in recent years as a promising method for mitigating CO2 emissions and generating value‐added carbon‐neutral fuels. Electrolyte, a crucial component of the CO2RR device, exerts a profound influence on the electrocatalytic efficiency and product distribution of CO2RR. The utilization of solid‐state electrolytes is considered an innovative and effective strategy to address the shortcomings of liquid electrolytes, such as low solubility of CO2 in aqueous electrolytes, mixing of liquid products with electrolytes, and carbon loss due to carbonate crossover. This review first summarizes the development of electrolyzers and discusses the limitations of liquid electrolyte existing in electrocatalytic CO2RR systems. Then, the primary types and key performance indexes of solid‐state electrolytes are reviewed, highlighting their notable advantages for electrocatalytic CO2RR. Importantly, major applications of solid‐state electrolyte in electrocatalytic CO2RR research are enumerated. Finally, challenges and opportunities are proposed for future development of solid‐state electrolyte in electrocatalytic CO2RR technology.
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来源期刊
Advanced Energy Materials
Advanced Energy Materials CHEMISTRY, PHYSICAL-ENERGY & FUELS
CiteScore
41.90
自引率
4.00%
发文量
889
审稿时长
1.4 months
期刊介绍: Established in 2011, Advanced Energy Materials is an international, interdisciplinary, English-language journal that focuses on materials used in energy harvesting, conversion, and storage. It is regarded as a top-quality journal alongside Advanced Materials, Advanced Functional Materials, and Small. With a 2022 Impact Factor of 27.8, Advanced Energy Materials is considered a prime source for the best energy-related research. The journal covers a wide range of topics in energy-related research, including organic and inorganic photovoltaics, batteries and supercapacitors, fuel cells, hydrogen generation and storage, thermoelectrics, water splitting and photocatalysis, solar fuels and thermosolar power, magnetocalorics, and piezoelectronics. The readership of Advanced Energy Materials includes materials scientists, chemists, physicists, and engineers in both academia and industry. The journal is indexed in various databases and collections, such as Advanced Technologies & Aerospace Database, FIZ Karlsruhe, INSPEC (IET), Science Citation Index Expanded, Technology Collection, and Web of Science, among others.
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