Sastipriyaa Padmanaaban, Yadhukrishnan Kakkad Vasudevan, Raja Viswanathan, Sujin P. Jose, Gopinathan Chellasamy
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引用次数: 0
摘要
ZnWO4/PANI 是通过原位聚合技术合成的,在其 XRD 图谱中显示出黑钨矿单斜相。在扫描电镜图像中观察到的 ZnWO4/PANI 的独特形貌显示出增强的氧化还原位点,从而提高了其电化学性能。循环伏安法和电静态充放电研究证实了 ZnWO4/PANI 的伪电容行为,在 1 M KOH 溶液中,1 A g-1 时的电容值为 908 F g-1,5000 次循环后的电容保持率为 94%。PANI 的强导电性和 ZnWO4 的窄离子传输通道以及多种氧化态有助于提高比容量,引导电子和离子的运动。这项研究表明,ZnWO4/PANI 具有协同效应,可显著提高电化学性能。
Incredible electrochemical performance of ZnWO4/PANI as a favorable electrode material for supercapacitor
ZnWO4/PANI was synthesized through the in-situ polymerization technique, revealing the wolframite monoclinic phase in its XRD pattern. The distinctive morphology of ZnWO4/PANI observed in the SEM image, exhibits enhanced redox sites, thereby improving its electrochemical performance. Cyclic voltammetry and galvanostatic charge-discharge studies confirm the pseudocapacitive behavior of ZnWO4/PANI, showcasing an impressive capacitance of 908 F g−1 at 1 A g−1 in 1 M KOH, along with a capacitive retention of 94 % over 5000 cycles. The robust conductivity of PANI and the narrow ion transport channels along with multiple oxidation states of ZnWO4 contribute to the higher specific capacity, guiding the movement of electrons and ions. This study suggests a synergistic effect in ZnWO4/PANI, resulting in remarkable electrochemical performance enhancements.
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