C. Bandaranayake, W.A.D.S.S. Weerasinghe, K. Vidanapathirana, K. Perera
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引用次数: 25
摘要
本文描述了一种基于凝胶聚合物电解质(GPE)的氧化还原电容器的循环伏安法性能。以22.5 wt%的聚丙烯腈(PAN)、1:1质量比的碳酸乙烯(EC)和碳酸丙烯(PC)为原料,盐浓度为1.0 M的碘化钠(NaI)制备GPE。用交流阻抗谱法研究了GPE离子电导率随温度的变化规律。采用两个聚吡咯(PPy)电极作为氧化还原电容器电极。用循环伏安法评价了该装置的性能。在不同的扫描速率下循环氧化还原电容器,以确定获得最大电容的扫描速率。跟踪该扫描速率后,在该扫描速率下进行连续循环,以研究循环时电容的恶化情况。GPE的室温电导率σ为4.29 × 10 -3 S cm -1。电导率随温度的变化遵循Arrhenius行为。从所选择的扫描速率来看,在扫描速率为30 mV s -1时可获得最大容量。氧化还原电容器的平均比容量为26.70 Fg -1。
A Cyclic Voltammetry study of a gel polymer electrolyte based redox-capacitor
This work describes the performance of a gel polymer electrolyte (GPE) based redox capacitor using the cyclic voltammetry technique.GPE was prepared with 22.5 wt% polyacrylonitrile (PAN), (1:1weight ratio) ethylene carbonate (EC) and propylene carbonate (PC) having a salt concentration of 1.0 M sodium iodide (NaI). Dependence of ionic conductivity of GPE on temperature was investigated using ac impedance spectroscopy. Two polypyrrole (PPy) electrodes were used as the electrodes of the redox capacitor. The performance of the device was evaluated by cyclic voltammetry. The redox-capacitors were cycled at different scan rates to determine the scan rate at which the maximum capacitance is obtained. After tracking that scan rate, continuous cycling was carried out at that scan rate to investigate the deterioration of capacitance upon cycling. The room temperature conductivity (σ) of the GPE was 4.29 × 10 -3 S cm -1 . The conductivity variation with temperature followed the Arrhenius behavior. From the scan rates selected for the study, the maximum capacity could be obtained at the scan rate of 30 mV s -1 . The average specific capacity of the redox capacitor was 26.70 Fg -1 .
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