摘要作为一种新型的储能装置,循环寿命长和功率密度高是超级电容器的显著特点,近 来逐渐成为了电化学领域的研究重点。特别是作为决定超级电容器性能的重要条件之一 的电极材料。研究人员一直探索的课题是如何降低电极材料的成本,并同时提高电极材 料整体的性能。根据以上背景,本论文做了以下的研究:78922
首先,以价格便宜的凹凸棒石(ATP)作基底,利用苯胺的原位化学聚合反应合成聚苯 胺包覆凹凸棒石,接着通过高温热处理得到了氮掺杂碳层包覆的凹凸棒石 ATP@NC-2。4。 通过电化学测试和 XRD、FTIR、BET、SEM 等方法来研究样品的结构形貌和电化学性能, 验证生成了目标产物,并且具有着优良的电化学性能。
毕业论文关键词 超级电容器 凹凸棒石 聚苯胺 碳化 氮掺杂
毕 业 设 计 说 明 书 外 文 摘 要
Title Preparation and properties of polyaniline coated capacitor attapulgite and carbonized material
Abstract Supercapacitor is a new energy storage device, it has many distinctive characteristics, like long cycle life and high power density 。 These characteristics made it become the focus of the research in the field of electrochemistry in recentyears。Especiallytheelectrode material which is thought as an important factor to measure the performance of supercapacitor。 Researchers have been exploring the issue is how to reduce the cost of electrode material while improve the performance of electrode material。 Based on the above background, this paper made the following studies:
First, we used inexpensive attapulgite (ATP) as the substrate, and through situ chemical polymerization of aniline synthesis of the polyaniline coated on Attapulgite's surface。 Then followed by high heat treatment of the Polyaniline coated Attapulgite to get nitrogen-doped carbon-coated Attapulgite ATP @ NC- 2。4。 To characterize the morphology, structure and properties of the sample, we use measures of electrochemical measurements and XRD, FTIR, BET, SEM。 The result shows the target product has he gainedandhasexcellent electrochemical properties。
Keywordssupercapacitorsattapulgitepolyanilinecarbonized nitrogen-doped
目次
1 绪论 1
1。1 引言 1
1。2 超级电容器概述 1
1。2。1 超级电容器分类 1
1。2。2 超级电容器储能机制 2
1。2。3 超级电容器优点 2
1。3 超级电容器电化学性能的提升 3
1。3。1 电容器能量密度的提高途径 3
1。3。2 超级电容器制备工艺的改进 4
1。4 本课题的研究背景和实验内容 4
1。4。1 研究背景 4
1。4。2 实验内容 5
2 聚苯胺包覆凹凸棒石及碳化材料的制备与电容性能研究:http://www.youerw.com/huaxue/lunwen_91069.html