超级电容器
材料科学
灵活性(工程)
电化学储能
纳米技术
电化学
过渡金属
储能
电极
软件部署
氧化还原
金属有机骨架
制作
金属
电化学能量转换
能量转换
科技与社会
作者
Dhandapani Yazhini,A. Arumugham Napoleon
出处
期刊:Energy & Fuels
[American Chemical Society]
日期:2026-03-18
卷期号:40 (13): 6559-6605
被引量:3
标识
DOI:10.1021/acs.energyfuels.5c06348
摘要
Transition metal selenides (TMSe) have garnered significant attention as electrode materials for supercapacitors (SCs), which are crucial components of advanced energy storage systems intricately linked to societal and industrial development. Supercapacitors are renowned for their exceptional high-power density, ultrafast charge–discharge kinetics, and superior long-term cyclability, and they rely heavily on electrode materials for optimal performance. This review emphasizes TMSe-based electrodes, highlighting their superior electrical conductivity, enhanced redox activity, and greater structural flexibility compared to conventional oxides and sulfides. The review examines various synthesis techniques, structural modifications, and electrochemical properties of TMSe electrodes, with a focus on metal–organic framework (MOF)-derived mono-, bi-, and trimetallic selenides. Although considerable advancements have been made, enduring challenges, including limited long-term stability, scalability, and interface-related obstacles, persist. Addressing these issues remains an imperative for the successful deployment of TMSe electrodes in next-generation energy storage devices.
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