氮化钒
材料科学
阳极
超级电容器
纳米复合材料
钒
多孔性
复合材料
氮化物
电解质
电化学
纳米颗粒
相位反转
复合数
碳纤维
化学工程
氮化碳
氮化硼
储能
电流密度
氮化钛
碳化钛
微晶
纳米技术
作者
Runze Wang,Yuanyou Peng,Chunjin Ai,Meimei Yu,Guang Liu,Tianqi He,Jie Zhang,Junlong Chen,Shengqiang Nie,Fen Ran
出处
期刊:Langmuir
[American Chemical Society]
日期:2025-09-18
卷期号:41 (38): 25942-25953
标识
DOI:10.1021/acs.langmuir.5c02408
摘要
Vanadium nitride is expected to address the energy density challenge of supercapacitors due to its excellent performance; however, its poor cycle life and rate performance limit its application potential. Compounding vanadium nitride with carbon materials can be a good solution, but a well-designed composite structure is required to fully exhibit the electrochemical properties. In this study, porous carbon composites embedded with vanadium nitride nanoparticles are constructed by a spray phase-inversion strategy. The composites have a mesh structure, which similar to cancellous bone, and exhibit good electrochemical performance as a supercapacitor anode material: the specific capacity reaches 431.5 F g–1 at the current density of 0.5 A g–1, and capacity retentions of 78.7% after 5000 cycles in a 6 M KOH electrolyte solution. The good performance is attributed to the fact that the carbon skeleton provides an efficient channel for the transfer of electrons and ions, and the vanadium nitride nanoparticles are effective in increasing the capacity while being well confined by the carbon skeleton. The porous structural composites are versatile and may have good potential for applications in other energy conversion and energy storage systems.
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