需要金币:1000 个金币 | 资料包括:完整论文 | ||
转换比率:金额 X 10=金币数量, 例100元=1000金币 | 论文字数:7219 | ||
折扣与优惠:团购最低可5折优惠 - 了解详情 | 论文格式:Word格式(*.doc) |
摘要:本文以锰酸盐作为电化学电容器的电极材料,系统研究不同的燃烧时间,锰氧化物的电化学性能为工作目的,多种现代物理测试手段和电化学研究方法研究了材料制备、电容特性及其影响因素、电容形成机理。恒流充放电、循环伏安等实验显示了由锰氧化物组装的电容器具有较好的电化学性能。 利用液相燃烧法用相应试剂制备出产物,并测其电化学性能,用醋酸和硝酸为原料,首先材料合成用()2 + (3)2 =1:1混合,再加10ml(约占总体积的20%)水配制成锰液,然后将配制好的锰液取适量溶液在坩埚中,按照不同的条件要求,将坩埚放入马弗炉中加热(固定温度400℃),记录加热过程中所发生的变化,时间分别为10min、30min、1h、3h和6h,在焙烧完成以后,取出所得到的产物(、、)等表征产物的电化学性能 ,最后在电池测试系统上测其电性能,并分析电性能。 系统研究了锰氧化物电化学电容器组的组装方式对其电化学性能的影响。 关键词:电化学电容器;电极材料;锰氧化物
Abstract:In this paper, permanganate as electrode materials for electrochemical capacitors, the burning time of different systems, the electrochemical properties of manganese oxide as the working end, a variety of modern methods of physical tests and electrochemical methods of material preparation, characteristics and capacitance its impact factor, capacitor formation mechanism. Constant current charge-discharge, cyclic voltammeter experiments show the assembly of the manganese oxide capacitor has a good electrochemical performance. The use of liquid combustion products prepared with the appropriate reagents, and measured the electrochemical properties, with acetic acid and nitric acid as raw materials, the first synthesis using ()2 + (3)2 = 1:1 mixed with 10ml (about 20% of the total volume) of water into the preparation of manganese solution, and then prepared to take a good amount of liquid solution of manganese in a crucible, in accordance with the requirements of different conditions, place the crucible in the muffle furnace heating (constant temperature of 400℃) recorded in the heating process changes, the time was 10min, 30min, 1h, 3h and 6h, the roasting is complete, remove the resulting products (,,etc.) characterization of electrochemical properties of the product, in the end battery test system, test its electrical properties, and analysis of electrical properties. System of a manganese oxide assembly of electrochemical capacitors on the electrochemical properties Keywords: Electrochemical capacitor;Pseudo capacitance;Manganese oxide |