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| 2.7V/1500F聚合物电容器制备与性能 | |
| 引用本文: | 任冬燕,李晶,李小宏,任东兴,曹笃盟.2.7V/1500F聚合物电容器制备与性能[J].电池工业,2012,17(3):136-139. |
| 作者姓名: | 任冬燕 李晶 李小宏 任东兴 曹笃盟 |
| 作者单位: | 1. 绵阳职业技术学院材料系,四川绵阳621000;西南科技大学材料科学与工程学院,四川绵阳621000;金川集团股份有限公司,甘肃金昌737100 2. 西南科技大学材料科学与工程学院,四川绵阳621000;绵阳鑫淼华明新能源有限公司,四川绵阳621000;金川集团股份有限公司,甘肃金昌737100 3. 绵阳职业技术学院材料系,四川绵阳621000;西南科技大学材料科学与工程学院,四川绵阳621000 4. 金川集团股份有限公司,甘肃金昌,737100 |
| 基金项目: | 绵阳市科技局产业化推进项目(编号11G021) |
| 摘 要: | 以中间相沥青为前驱体,以KOH和CO2为活化剂,采用物理—化学联合工艺制备了高比表面积的超级电容器用活性炭电极材料;以所制备的活性炭为电极材料制备了2.7V/1500F聚合物超大容量电容器,并对其充放电特性、容量、内阻、循环性能、漏电流、安全性能进行了测定。实验结果表明:所制备的活性炭为电极材料制成的碳基超级电容器,其充放电曲线表现出良好的电容特性,实际容量可达1 670F,活性物质的克容量为110.6F/g,电容器内阻在6mΩ以下;在大电流放电条件下,电容器的能量密度可达5.96 Wh/kg,5 000次循环后容量无明显的衰减现象。过充、短路、挤压和针刺四项安全测试测试结果良好。 |
| 关 键 词: | 超级电容器 碳电极材料 比容量 循环性能 |
Preparation and performance of 2. 7V/1500F polymer supercapacitor |
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| REN Dong-yan , LI Jing , LI Xiao-hong , YUAN Chun , CAO Du-meng.Preparation and performance of 2. 7V/1500F polymer supercapacitor[J].Chinese Battery Industry,2012,17(3):136-139. | |
| Authors: | REN Dong-yan LI Jing LI Xiao-hong YUAN Chun CAO Du-meng |
| Affiliation: | 1. Department of Materials Engineering ,Mianyang Vocational and Technology College, Mianyang, Sichuan 621000 ,China;2. School of Materials Science and Engineering, Southwest Science and Technology University, Mian yang , Sichuan 621000, China 3. J inchuan Group Co. , Ltd. , J inchang , Ganshu 731000,China;4. Jinchuan Group Co. ,Ltd. ,Jinchang, Gansu 731000, China) |
| Abstract: | With the mesophase pitch as precursor,KOH and CO2 as activated agents, the activated carbon electrode material was fabricated by physical-chemical combined activated technique for supercapacitor. 2.7 V /1500F supercapaeitor was prepared with the activated carbon as electrode materials. The charge and discharge behaviors, specific capacitance, equivalent serials resistance (ESR), cycle properties and safy properties of prepared supercapacitor were all tested. The pre- pared supercapacitor with the activated carbon showed the desired capacitance properties. In the BF4 (CN)4/AN electrolyte, the specific capacitance and ESR of the prepared supercapacitor were 110.6 F/g and 6 mg~, respectively. The actual capacitance of supercapaeitor was 1600 F. Its en- ergy density could reach 5.96 Wh/kg at large discharge current . There was no obvious capaci- tance decay that could be observed after 5 000 cycles. After the safety examination, including o ver discharge, short circuit, extrusion and needle-punching tests, the supercapacitor showed de- sirable performance. |
| Keywords: | supereapacitor carbon electrode materials specific capacitance cycle performance |
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