Abstract Organic supercapacitors are considered attractive alternatives to traditional inorganic‐based charge storage devices due to their synthetic versatility, low cost, and environment‐friendliness features. Photopolymerized anthraquinone‐polydiacetylene is employed as a core component in high‐performance asymmetric supercapacitors (ASCs). Specifically, interspersed polydiacetylene‐anthraquinone/polyaniline (PANI) electrodes are prepared via drop‐casting and used as cathodes in devices employing polypyrrole/reduced graphene oxide anodes using aqueous or ionic liquid electrolytes. The excellent electrochemical properties of the polydiacetylene‐anthraquinone/PANI electrodes, specifically high capacitance (specific capacitance ≈720 F g−1 at 1 A g−1), long discharge time, and cycling stability, are ascribed to the superior redox profile of the anthraquinone and ambipolar charge transport associated with the polydiacetylene framework. The asymmetric supercapacitor prepared using the polydiacetylene‐anthraquinone/PANI electrodes displays a high energy density of 36 Wh kg−1 at a power density of 995 W kg−1, underscoring possible utilization of the anthraquinone‐polydiacetylene derivative in practical energy storage devices.
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机译:摘要 有机超级电容器具有合成通用性、低成本、环境友好等特点,被认为是传统无机电荷存储器件的有吸引力的替代品。光聚合蒽醌-聚二乙炔被用作高性能非对称超级电容器 (ASC) 的核心组件。具体来说,通过滴铸制备穿插的聚二乙炔-蒽醌/聚苯胺 (PANI) 电极,并在使用水性或离子液体电解质的聚吡咯/还原氧化石墨烯阳极的器件中用作阴极。聚二乙炔-蒽醌/PANI电极优异的电化学性能,特别是高电容(比电容≈1 A g−1时为720 F g−1)、长放电时间和循环稳定性,归因于蒽醌的卓越氧化还原曲线和与聚二乙炔框架相关的双极电荷传输。使用聚二乙炔-蒽醌/PANI电极制备的非对称超级电容器在995 W kg-1的功率密度下表现出36 Wh kg−1的高能量密度,突显了蒽醌-聚二乙炔衍生物在实际储能器件中的可能应用。
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