Supercapacitive performance of self-assembled thin film of liquid catocene/basal plane pyrolytic graphite electrode

S. Damiri, Zahra Samiei, H. Pouretedal
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Abstract

Reasonable design of electrode material with low cost, lightweight, and excellent electrochemical properties is of great significance for future large-scale energy storage applications. Herein, we report the electrochemical and supercapacitive behaviour of the liquid redox of catocene, 2,2’-bis(ethyl-ferroceneyl) propane, self-assembled on a basal plane pyrolitic graphite electrode in comparison to the solid ferrocene thin film in aqueous sodium sulfate electrolyte. The modified electrode surfaces were evaluated to assess the iron content and the formation of thin film using scanning electron microscopy, laser-induced breakdown spectroscopy, and attenuated total reflectance method. Also, the supercapacitive performances of the related modified electrodes were assessed and compared using cyclic voltammetry and galvanostatic charge-discharge in a three-electrode system and an asymmetric two-electrode supercapacitor system. Electro­chemical results showed that the electrode processes are diffusion-controlled with battery-like behaviour, and the liquid catocene exhibits more effective interaction with the graphite surface in comparison to solid ferrocene. The catocene surface coverage on graphite is nearly 50-75 % higher than ferrocene, leading to improved interaction and charge transfer resistance, observed in electrochemical impedance spectroscopy studies. In galvanostatic charge-discharge evaluations, the supercapacitor based on catocene modified electrode shows a specific capacitance of 141.2 F g-1 at a current density of 1.0 A g-1, with a specific energy density of 56.7 Wh kg-1 at a power density of 2.9 kW kg-1.
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液态茂碳/基底面热解石墨电极自组装薄膜的超级电容性能
合理设计成本低、重量轻、电化学性能优异的电极材料对未来大规模储能应用具有重要意义。在此,我们报告了自组装在基底面热罗石墨电极上的二茂铁(2,2'-双(乙基-二茂铁基)丙烷)液态氧化还原的电化学和超级电容行为,并与硫酸钠水溶液电解液中的固态二茂铁薄膜进行了比较。使用扫描电子显微镜、激光诱导击穿光谱法和衰减全反射法评估了改性电极表面的铁含量和薄膜的形成情况。此外,还在三电极系统和非对称双电极超级电容器系统中使用循环伏安法和电静态充放电法评估和比较了相关改性电极的超级电容器性能。电化学结果表明,电极过程受扩散控制,具有类似电池的行为,与固态二茂铁相比,液态二茂铁与石墨表面的相互作用更为有效。根据电化学阻抗谱研究的观察,二茂铁在石墨上的表面覆盖率比二茂铁高出近 50-75%,从而改善了相互作用和电荷转移电阻。在电静态充放电评估中,基于改性二茂铁电极的超级电容器在电流密度为 1.0 A g-1 时的比电容为 141.2 F g-1,在功率密度为 2.9 kW kg-1 时的比能量密度为 56.7 Wh kg-1。
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