电纺丝明胶纳米纤维在电双层电容器中用作非水电解质的制备与表征

IF 3.9 Q2 NANOSCIENCE & NANOTECHNOLOGY
Ditpon Kotatha, M. Hirata, Mayuko Ogino, S. Uchida, M. Ishikawa, T. Furuike, H. Tamura
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引用次数: 19

摘要

采用明胶静电纺丝法制备了一种新型纳米纤维凝胶电解质,可作为电双层电容器的非水电解质。采用25%明胶溶液的静电纺丝技术制备了明胶静电纺丝纳米纤维电解质。结构分析表明,GES产物具有明显的纳米纤维结构,纤维直径在306.2 ~ 428.4 nm范围内,具有较高的热稳定性和抗拉强度,经1-乙基-3-甲基咪唑四氟硼酸盐(EMImBF4)浸泡后形成稳定的纳米纤维结构。经过一系列纺丝时间的测试,25分钟生产的GES电解质(GES-25)具有适合EDLC组装的厚度,具有优化的拉伸性能,并用于用EMImBF4制造EDLC测试电池。这些测试电池与纯EMImBF4和分离器作为电解质的电池进行了比较。通过充放电测试、放电电容和交流阻抗测试对电池的电化学性能进行了表征。交流阻抗测量表明,与纯EMImBF4相比,使用GES-25/EMImBF4凝胶电解质的测试电池与电极的接触略差,而具有相当的IR下降和放电电容(计算电容保持率为56.6%)。结果表明,这种新型凝胶电解质可以作为非水电解质使用,以提高edlc的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Preparation and Characterization of Electrospun Gelatin Nanofibers for Use as Nonaqueous Electrolyte in Electric Double-Layer Capacitor
A novel nanofibrous gel electrolyte was prepared via gelatin electrospinning for use as a nonaqueous electrolyte in electric double-layer capacitors (EDLCs). An electrospinning technique with a 25 wt% gelatin solution was applied to produce gelatin electrospun (GES) nanofiber electrolytes. Structural analysis of the GES products showed a clearly nanofibrous structure with fiber diameters in the 306.2–428.4 nm range and exhibiting high thermal stability, high tensile strength, and a stable form of nanofibrous structure after immersion in 1-ethyl-3-methylimidazolium tetrafluoroborate (EMImBF4). After testing over a range of spinning times, GES electrolytes that were produced at 25 min (GES-25) had a suitable thickness for the assembly of EDLC with the optimized tensile properties and were used to fabricate EDLC test cells with EMImBF4. These test cells were compared to those with pure EMImBF4 and a separator as an electrolyte. The electrochemical properties of the test cells were characterized by charge-discharge testing, discharge capacitance, and alternative current (AC) impedance measurements. AC impedance measurements showed that the test cell with the GES-25/EMImBF4 gel electrolyte showed slightly poorer contact with the electrode when compared to that with pure EMImBF4, whereas exhibited comparable IR drop and discharge capacitance (calculated capacitance retention was 56.6%). The results demonstrated that this novel gel electrolyte can be used as a nonaqueous electrolyte in order to improve the safety in EDLCs.
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来源期刊
Journal of Nanotechnology
Journal of Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
5.50
自引率
2.40%
发文量
25
审稿时长
13 weeks
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