第36卷第6期电子元件与材料V ol.36 No.6 2017年6月ELECTRONIC COMPONENTS AND MATERIALS Jun. 2017
极片压实比对碳基超级电容器的性能影响
朱归胜1,2,付振晓1,2,沓世我1,2,于圣明1,2,任海东1,2,梅京1,2,陆守强1,2,何然1,2(1. 广东风华高新科技股份有限公司,广东肇庆526020;2. 新型电子元器件关键材料与工艺国家重点实验室,
广东肇庆526020)
摘要: 以湿法涂布的超级电容器碳极片为原料,通过辊压控制获得不同压实比的极片,再按相同的工艺制成
2.7 V/50F的电容单体,考察了压实比对内阻和循环性能的影响。结果表明,不同压实比的碳极片,对超级电容器高分子材料科学与工程
单体的内阻和电性能具有显著影响,超级电容器的容量发挥率和循环稳定性随着压实比的增加呈现先增加后下降的趋势,而超级电容器的内阻随压实比的增加先下降后增加,过大的压实比不利于获得优异的超级电容器电性能。
大学生生涯规划当压实比为15%时,获得了首次容量发挥率为94.54%,20C 10 000次循环后的容量保持率为93.1%的理想超级电容器性能。
关键词: 超级电容器;碳;电极片;压实密度;内阻;循环性能
doi: 10.14106/jki.1001-2028.2017.06.009
中图分类号: TM53 文献标识码:A 文章编号:1001-2028(2017)06-0048-05
Effect of compaction density of electrodes on properties of carbon
bad supercapacitor
ZHU Guisheng1,2, FU Zhenxiao1,2, TA Shiwo1,2, YU Shengming1,2, REN Haidong1,2, MEI Jing1,2, LU
单位基本情况Shouqiang1,2, HE Ran1,2
板报主题
(1. Guangdong Fenghua Advanced Technology Holding Co., Ltd, Zhaoqing 526020, Guangdong Province, China; 2.State
快捷键切换窗口
Key Laboratory of Advanced Materials and Electronic Components, Zhaoqing 526020, Guangdong Province, China)荠菜做法
穿透是什么意思Abstract: Supercapacitor bad on carbon with the type of 2.7 V/50F was prepared by different compaction ratios of the electrode, using wet coating method. The effect of different compaction ratios on the internal resistance and high rate cycle performance of supercapacitor was studied. The results show that the compaction ratio of carbon electrode has a significant impact on the supercapacitor resistance and electrical properties. With the increa of compaction ratio, the capacitance efficiency of supercapacitor first increas and then decreas, while the internal resistance is opposite. It's worth noting that excessive compaction ratio is not conducive to acquire excellent performance of the supercapacitor.
When the compaction ratio is 15%, the first discharge capacitance efficiency is 94.54% and the retention rate of capacitance is 93.1% after 10 000 cycles at 20C, acquiring a supercapacitor with excellent performance.
Key words: supercapacitor; carbon; electrode; compaction density; internal resistance; cycle performance
超级电容器作为一种新型储能器件,兼具二次电池和传统电容器的优点[1-2]。随着近年来超级电容器产业的快速发展,碳基超级电容器的产业化和应用日益成熟。目前碳基超级电容器已广泛应用于智能三表、工控电路、消费电子等领域,并在风力变桨、混动大巴、节能电梯、军工等领域快速应用发展[3-5]。
超级电容器可以分为电极、电解质、集流体和隔离物四大部分,其中电极是超级电容器的关键部件,电极成本占到整个电容器材料成本的
研究与试制
美妙造句收稿日期:2017-04-10 通讯作者:朱归胜
基金项目:中国博士后科学基金资助项目(No. 2015M580781)
作者简介:朱归胜(1981-),男,湖南郴州人,副研究员,博士后,研究方向为超级电容器材料与器件,E-mail: 。网络出版时间:2017-06-07 13:40 网络出版地址:knski/kcms/detail/51.1241.TN.20170607.1340.009.html
