首页|期刊导航|储能科学与技术|低温双电层电容器的电解液与电极材料的研究进展与展望

低温双电层电容器的电解液与电极材料的研究进展与展望OA

Research progress and future perspectives on electrolytes and electrode materials for low-temperature electric double-layer capacitors

中文摘要英文摘要

电化学储能设备的实际应用面临着诸多严峻挑战,尤其在低温环境下,常出现电化学性能衰退甚至设备失效等问题.相较于以法拉第反应为储能机制的锂离子电池,双电层电容器凭借其物理吸/脱附的储能机制,在解决低温电化学储能问题方面展现出独特潜力,但仍存在诸多技术瓶颈.在低温条件下,电解液的离子电导率下降、电解液本身发生凝固以及离子在电极材料内部的扩散受限等问题,严重制约了器件的电化学性能.因此,如何设计兼具高离子电导率和超低凝固点等优异低温性能的电解液,并开发与之匹配的电极材料,成为推动低温双电层电容器发展的关键.本文首先阐述了双电层电容器的基本工作原理,系统分析了其在低温环境下面临的主要问题.在此基础上,深入探讨了水系、有机系及离子液体等各类电解液的优缺点,以及电解液与电极材料的设计原则.进而综述了近年来电解液与电极材料设计的研究进展,最后展望了低温双电层电容器的未来研究方向,以期为下一代高性能低温双电层电容器的发展提供理论指导和技术参考.

Electrochemical energy storage devices face numerous critical challenges in their widespread applications,particularly under low-temperature conditions,where issues such as electrochemical performance degradation and even device failure frequently occur.Compared with lithium-ion batteries,which store energy via Faradaic reactions,electric double-layer capacitors(EDLCs)exhibit unique potential for addressing low-temperature electrochemical energy storage challenges due to their physical adsorption-desorption mechanism.However,they still encounter numerous obstacles in practical applications.Under low-temperature conditions,the ionic conductivity of the electrolyte decreases and the electrolyte may even solidify,while ion diffusion within electrode materials becomes restricted,severely limiting the electrochemical performance of EDLCs.Therefore,designing electrolytes with excellent low-temperature performance,featuring both high ionic conductivity and an ultra-low freezing point,along with developing matching electrode materials,has become critical for advancing low-temperature EDLCs.This review first elaborates on the fundamental working principles of EDLCs and systematically analyzes the key challenges they face in low-temperature environments.Building on this foundation,it provides a discussion of the advantages and disadvantages of various electrolytes,including aqueous,organic,and ionic liquid electrolytes,as well as the design principles for electrolytes and electrode materials.Subsequently,recent research progress in the design of both electrolytes and electrode materials is reviewed.Finally,future research directions for low-temperature EDLCs are proposed,aiming to provide theoretical guidance and technical references for the development of next-generation high-performance low-temperature EDLCs.

刘浩锋;周锋;杨明;李潇潇;吴忠帅

中国科学院大连化学物理研究所,辽宁 大连 116023中国科学院大连化学物理研究所,辽宁 大连 116023辽宁省清洁能源有限公司科技创新部辽宁能源投资(集团)有限责任公司战略发展部,辽宁 沈阳 110014中国科学院大连化学物理研究所,辽宁 大连 116023

信息技术与安全科学

低温双电层电容器电解液电极材料

low-temperatureelectric double-layer capacitorselectrolyteselectrode materials

《储能科学与技术》 2026 (5)

1581-1594,14

国家重点研发计划项目(2023YFB4005204)、国家自然科学基金项目(U24A20553,22379144,22125903,22439003),辽宁省振兴领军人才计划项目(XLYC2402032),辽宁省科技重大专项(2024jh1/1170001x),DICP项目(DICP I202471).

10.19799/j.cnki.2095-4239.2026.0356

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