Highly Wrinkled Porous Polypyrrole for the Enhancement of the Performance of an Fe2S3-Fe2O3/poly-O-amino Benzenethiol Supercapacitor from a Basic Medium

Inorganics (Basel) Pub Date : 2023-10-13 DOI:10.3390/inorganics11100402

Mohamed Rabia, Maha Abdallah Alnuwaiser, Fuead Hasan, Ahmed Adel A. Abdelazeez

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Abstract

In this study, O-amino benzenethiol (OABT) was oxidized in one pot using Fe(NO3)3 to produce a novel Fe2S3-Fe2O3/poly O-amino benzenethiol (POABT), which showed a highly uniform morphology. At the same time, from SEM analysis, highly wrinkled porous polypyrrole (Ppy) and porous ball-like POABT structures prepared from the K2S2O8 route were evidenced by SEM and TEM analyses. A nanocomposite pseudo-supercapacitor (SC) was fabricated using Fe2S3-Fe2O3/POABT, and its performance was tested with and without incorporating Ppy in the paste. The results indicate that Ppy significantly increased the specific capacitance (CS) values, indicating an enhancement in charge storage. At a current density of 0.2 A/g, the CS values were 44 F/g and 161 F/g for the paste without and with Ppy, respectively. Additionally, the E was calculated, and the incorporation of Ppy resulted in a significant increase in E, reaching 30 W.h.kg−1; this was significantly higher than the value of 8.18 W.h.kg−1 observed without Ppy materials. This effect is likely due to the improved charge transfer facilitated by the presence of Ppy, as evidenced by the Nyquist plot, where the Rct values were 1.1 Ω and 2.1 Ω with and without Ppy, respectively. Overall, the low cost and significant technical advantages of this capacitor make it a promising candidate for commercial applications.

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高起皱多孔聚吡咯在碱性介质中增强Fe2S3-Fe2O3/聚o -氨基苯硫醇超级电容器性能

在本研究中，用Fe(NO3)3在一锅中氧化o -氨基苯乙醇(OABT)，制得新型Fe2S3-Fe2O3/聚o -氨基苯乙醇(POABT)，其形貌高度均匀。同时，SEM和TEM分析证实了K2S2O8制备的多孔聚吡咯(Ppy)和多孔球状POABT结构具有高度褶皱性。采用Fe2S3-Fe2O3/POABT制备了一种纳米复合伪超级电容器(SC)，并对其性能进行了测试。结果表明，Ppy显著提高了比电容(CS)值，表明电荷存储能力增强。电流密度为0.2 a /g时，无Ppy膏体的CS值为44 F/g，含Ppy膏体的CS值为161 F/g。结果表明，Ppy的掺入使E显著增加，达到30 W.h.kg−1;这一数值显著高于未添加Ppy材料时的8.18 W.h.kg−1。这种效应可能是由于Ppy的存在促进了电荷转移的改善，Nyquist图证明了这一点，其中有Ppy和没有Ppy的Rct值分别为1.1 Ω和2.1 Ω。总的来说，这种电容器的低成本和显著的技术优势使其成为商业应用的有希望的候选者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Inorganics (Basel)

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