Facile construction of flexible CC/NiS/a-NiS electrode with self-supporting structure by electroplating

Xiaoping Lin, Xiaoyan Li, J. Yao, Xianghong Li, Jianlin Xu
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引用次数: 1

Abstract

Purpose To develop electrode materials for supercapacitor with superior electrochemical performance and simple preparation process, the purpose of this study is to prepare flexible CC/NiS/a-NiS electrodes with self-supporting structure by loading hydrothermally synthesized a-NiS particles along with nano-NiS on carbon cloth by electroplating method. Design/methodology/approach The effects of current densities, temperatures and pH values on the loading amount and uniformity of the active substances during the plating process were investigated on the basis of optimization of surface morphology, crystalline structure and electrochemical evaluation as the cyclic voltammetry curves, constant current charge–discharge curves and AC impedance. Findings The a-NiS particles on CC/NiS/a-NiS were mostly covered by the plated nano-NiS, which behaved as a bulge and provided a larger specific surface area. The CC/NiS/a-NiS electrode prepared with the optimized parameter exhibited a specific capacitance of 115.13 F/g at a current density of 1 A/g and a Coulomb efficiency of 84% at 5 A/g, which is superior to that of CC/NiS electrode prepared by electroplating at a current density of 10 mA/cm2, a temperature of 55°C and a pH of 4, demonstrating its fast charge response of the electrode and potential application in wearable electronics. Originality/value This study provides an integrated solution for the development of specifically structured NiS-based electrode for supercapacitor with simple process, low cost and high electrochemical charge/discharge performance, and the simple and easy-to-use method is also applicable to other electrochemically active composites.
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电镀制备具有自支撑结构的CC/NiS/a-NiS柔性电极
为了开发电化学性能优异、制备工艺简单的超级电容器电极材料,本研究采用电镀法将水热合成的a-NiS颗粒与纳米NiS一起负载在碳布上,制备具有自支撑结构的柔性CC/NiS/a-NiS电极。设计/方法/途径通过循环伏安曲线、恒流充放电曲线和交流阻抗的电化学评价,研究了电流密度、温度和pH值对电镀过程中活性物质负载量和均匀性的影响。发现CC/NiS/a-NiS表面的a-NiS颗粒大部分被镀纳米NiS覆盖,呈凸起状,比表面积较大。利用优化参数制备的CC/NiS/a-NiS电极在电流密度为1 a /g时的比电容为115.13 F/g,在5 a /g时的库仑效率为84%,优于在电流密度为10 mA/cm2、温度为55℃、pH为4的条件下电镀制备的CC/NiS电极,显示了该电极的快速充电响应和在可穿戴电子产品中的潜在应用。独创性/价值本研究为开发工艺简单、成本低、电化学充放电性能高的特殊结构的nis基超级电容器电极提供了集成解决方案,该方法简单易用,也适用于其他电化学活性复合材料。
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