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引用次数: 2
摘要
聚苯胺在水溶液中容易降解,使用凝胶电解质可以缓解聚苯胺的降解。本文用简便的方法制备了一种低成本、高能量密度的固态超级电容器。超级电容器的电极由植酸交联的聚苯胺独立膜和磨碎的碳纤维制成,电解质凝胶由硫酸和聚乙烯醇组成。我们的研究结果表明,在电流密度为0.08 a /g时,超级电容器可以达到273.6 F/g (1.6 F/cm2)的最大电容,这明显高于文献中报道的大多数固态电容器。实现具有良好循环稳定性的高电容超级电容器的能力主要归功于电解质凝胶对电极的良好渗透。所开发的轻、薄、柔性、环保的超级电容器在各种储能装置中具有潜在的应用前景。
A high-capacitance solid-state supercapacitor based on polyaniline and ground carbon fibers
Polyaniline tends to degrade in aqueous electrolytes and it can be alleviated using gel electrolytes. Here a low-cost solid-state supercapacitor of high energy density is fabricated with a facile method. The electrodes of the supercapacitor are made of a phytic acid-crosslinked freestanding film of polyaniline and ground carbon fibers and the electrolyte gel is composed of sulfuric acid and polyvinyl alcohol. Our results show that a maximum capacitance of 273.6 F/g (1.6 F/cm2) at a current density of 0.08 A/g can be achieved by the supercapacitor, which is significantly higher than most solid-state ones reported in the literature. The ability to achieve a high-capacitance supercapacitor with good cyclic stability is mainly attributed to excellent infiltration of the electrolyte gel into the electrodes. The developed lightweight, thin, flexible, and environmental friendly supercapacitor would have potential applications in various energy storage devices.
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