超级电容器
纳米复合材料
镍
材料科学
钴
氢氧化物
电极
芯(光纤)
壳体(结构)
冶金
化学工程
复合材料
纳米技术
电容
化学
工程类
物理化学
作者
Yi Jiang,Bin Cai,Ying Yang,Fei Yu,Yilai Sun,Xin Qi,Liying Wang,Xuesong Li,Xijia Yang
标识
DOI:10.1016/j.est.2022.106001
摘要
As an efficient energy storage device, supercapacitors have exhibited excellent charge storage capacity and stable cycling performance. However, the lower energy density makes it difficult to meet the performance requirements in practical applications. Here, a core-shell structure of NiCoSe 2 @NiCo-LDH was synthesized on carbon cloth by a two-step method. The NiCoSe 2 @NiCo-LDH composite as electrode of supercapacitor exhibited a specific capacitance of 2609.1 mF cm −2 (1242.4F g −1 ) in three-electrode system, which was far higher than that of the NiCoSe 2 electrode material, maintaining 85 % of the original capacity after 2000 cycles. The NiCoSe 2 @NiCo-LDH and activated carbon materials were further assembled to an asymmetric supercapacitor to verify their performance of real applications. The device exhibited a specific capacity of 912.5 mF cm −2 at a current density of 2 mA cm −2 and maintained 96.19 % of its original capacity after 2000 cycles, demonstrating its application potential. • A core-shell structure of NiCoSe 2 @NiCo-LDH was synthesized on carbon cloth by a two-step method. • The flexible electrodes of supercapacitor exhibited a specific capacitance of 2609.1 mF cm -2 . • The device exhibited a specific capacity of 912.5 mF cm -2 at a current density of 2 mA cm -2 .
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