利用杰克木生物炭合成活性炭,用于高性能生物质衍生复合双层超级电容器

IF 3.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Carbon Trends Pub Date : 2024-05-01 DOI:10.1016/j.cartre.2024.100359
T.M.W.J. Bandara , A.M.B.S. Alahakoon , B.-E. Mellander , I. Albinsson
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引用次数: 0

摘要

本研究调查了使用烧结陶瓷粘合剂形成的基于生物活性炭的超级电容器电极的电化学特性。为了在 FTO 基底上获得良好的活性炭薄膜,研究人员使用了从杰克木(Artocarpus heterophyllus)中提取的活性炭和不同数量的 TiO2 纳米粒子作为粘合剂。本研究没有使用其他粘合剂,因为大多数传统粘合剂会破坏薄膜的导电性。此外,与聚合物粘合剂相比,TiO2 具有更高的温度耐受性,因此制备的电极可应用于更广泛的领域。我们制作了一系列电化学双层电容器,并通过循环伏安法和电静态充放电测量对其进行了表征。制备的超级电容器显示出双层电容行为。含有 90% 活性炭和 10% TiO2 的电极表现出最佳性能,在 2 mV s-1 扫描速率下的比电容高达 147 F g-1。这种超级电容器的功率密度为 68.5 W kg-1,能量密度为 8.02 Wh kg-1。当功率密度高达 1186.51 W kg-1 时,能量密度降至 5.71 Wh kg-1。根据循环伏安测量法进行的 1000 次循环测量,超级电容器显示出卓越的循环稳定性,没有任何电容下降的痕迹。
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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Activated carbon synthesized from Jack wood biochar for high performing biomass derived composite double layer supercapacitors

In this study, the electrochemical properties of bioderived activated carbon-based electrodes for supercapacitors formed using a sintered ceramic binder were investigated. Activated carbon derived from Jack wood tree (Artocarpus heterophyllus) with variable amounts of TiO2 nanoparticles as a binder, were used as electrodes in order to get good, activated carbon films on FTO substrates. No other binders were used in this study since most conventional binders devastate the electrical conductivity in the films. Furthermore, TiO2 has higher temperature tolerance compared to polymeric binders thus the electrode prepared can be used in wider applications. A series of electrochemical double-layer capacitors were fabricated and characterized by cyclic voltammetry and galvanostatic charge-discharge measurements. The supercapacitors prepared showed double-layer capacitive behavior. The electrodes that contain 90 % activated carbon and 10 % TiO2 show optimum performance along with an impressive specific capacitance of 147 F g−1 at 2 mV s−1 scan rate. This supercapacitor exhibits a power density of 68.5 W kg−1 while the energy density is 8.02 Wh kg−1. When the power density is as high as 1186.51 W kg−1 the energy density drops to 5.71 Wh kg−1. According to cyclic voltammetry measurements taken for 1000 cycles, the supercapacitor shows excellent cycle stability without any traces of capacitance drop.

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来源期刊
Carbon Trends
Carbon Trends Materials Science-Materials Science (miscellaneous)
CiteScore
4.60
自引率
0.00%
发文量
88
审稿时长
77 days
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