IF 3.2
4区 化学
Q2 CHEMISTRY, MULTIDISCIPLINARY
引用次数: 0
摘要
利用水热技术制备了纳米花状氧化锌(ZnO-NFs)。XRD 和 FESEM 分别用于分析合成样品的晶体结构和形貌。制备了非对称超级电容器纽扣电池(ASCs),以分析其电化学性能。使用双电极电化学工作站绘制了 CV、GCD 和 Nyquist 图。对于基于 ZnO-NFs 的 ASC,在 10-30 mVs-1 的扫描速率下计算了比电容。在 10 mVs-1 时,计算得出的比电容为 101.78 Fg-1。在 3 Ag-1 时,ASC 的能量密度和功率密度分别为 5.54 WhKg-1 和 2.65 WKg-1。本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zinc oxide nano-flowers synthesized via a hydrothermal approach for electrochemical performance as a supercapacitor electrode
The nano-flower-shaped zinc oxide (ZnO-NFs) was prepared using the hydrothermal technique. XRD and FESEM were used to analyze the crystalline structure and morphology of the synthesized sample, respectively. An asymmetric supercapacitor coin cell (ASCs) has been fabricated to analyze the electrochemical performance. CV, GCD, and Nyquist plots have been taken using a two-electrode electrochemical workstation. For ZnO-NFs based ASCs, the specific capacitance has been calculated at scan rates of 10–30 mVs−1. The calculated specific capacitance is 101.78 Fg-1 at 10 mVs−1. The ASCs exhibit energy and power densities of 5.54 WhKg−1 and 2.65 WKg-1 at 3 Ag-1, respectively.
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来源期刊
CiteScore
3.50
自引率
7.70%
发文量
492
审稿时长
3-8 weeks
期刊介绍:
The Journal of the Indian Chemical Society publishes original, fundamental, theorical, experimental research work of highest quality in all areas of chemistry, biochemistry, medicinal chemistry, electrochemistry, agrochemistry, chemical engineering and technology, food chemistry, environmental chemistry, etc.
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