掺杂不同金属离子的碳布/二氧化锰超级电容器电极的制备

2022 International Congress on Advanced Materials Sciences and Engineering (AMSE) Pub Date : 2022-07-22 DOI:10.1109/AMSE51862.2022.10036687

Xiaoyan Li, Na Yang, J. Yao, Jianlin Xu

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引用次数: 0

摘要

以水为电解液的对称超级电容器，由于水的分解，其电压通常限制在1v左右。通过对电极进行修饰，可以将电压扩展到一定程度。采用电化学沉积的方法在碳布上制备了K+和Li+掺杂MnO2，并获得了良好的电导率和电化学性能。利用掺杂二氧化锰的伪电容与碳布电双层电容的协同效应，将混合结构电极的电压扩展到1.3 V。利用扫描电子显微镜和x射线衍射对样品进行结构分析。在10 mV/s下，K+和Li+掺杂的MnO2的比电容分别为231.2 F/g和283.4 F/g。Li-MnO2/C优异的综合电化学性能表明，该策略可作为合成宽电压范围储能材料的新途径。

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Preparation Of Carbon cloth/MnO2 Doped with Different Metal Ions for Supercapacitor Electrode

The voltage of symmetrical supercapacitors with water as the electrolyte is usually limited to about 1 V due to the decomposition of water. The voltage can be expanded to a certain extent by modifying the electrode. K+ and Li+ doped MnO2 were prepared on carbon cloth by electrochemical deposition with satisfied conductivity and electrochemical properties herein. The voltage of the mixed structure electrode is expanded to 1.3 V by using the synergistic effect of the pseudo capacitance of doped-MnO2 and electric double-layer capacitance of carbon cloth. Structural analysis of the samples was performed using scanning electron microscopy and X-ray diffraction. The specific capacitances of the K+ and Li+ doped MnO2 were 231.2 F/g and 283.4 F/g at 10 mV/s, respectively. Excellent integrated electrochemical performance of Li-MnO2/C suggest that this strategy can serve as a novel approach to synthesize materials for energy storage in the wide voltage range.

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2022 International Congress on Advanced Materials Sciences and Engineering (AMSE)

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