用Sol-Gel法制备RuO2·xH2O,并进一步制备了RuO2·xH2O/活性碳复合电极. 针对超级电容器单元工作电压低的问题,研制了一种混合型超级电容器.该电容器是由金属钽阳极、Ta2O5阳极电介质、38wt%的硫酸电解质溶液和RuO2·xH2O/AC阴极组成.组装的超级电容器样品的参数为50V、2.1mF,储能密度为1.48J/cm3.实验结果表明,该电容器具有较高的储能密度和良好的阻抗特性,可以满足脉冲功率技术的要求.
RuO2·xH2O/AC composite electrode, an ideal electrode of super-capacitors, was prepared. For super-capacitors used usually having lower working voltage of super-capacitors, a newly hybrid super-capacitor was developed. The capacitor was composed of a tantalum metal anode, Ta2O5 dielectric, 38wt% H2SO4 electrolyte solution and RuO2·xH2O /AC cathode. Test results show that the parameters of the hybrid super-capacitor are 50V, 2.1mF, the storage energy density is 1.48J/cm3, showing that it has the high storage energy density and good impedance performance and can be used in pulse power systems.
参考文献
| [1] | |
| [2] | Qu Deyang, Shi Hang. J. Power Source, 1998, 74: 99--107. [2] Stenphen L, Boril I, Xuejun C. Nanostructured carbons: new prospects for electrochemical capacitors. Proceedings 7th International Seminar on Double Layer Capacitors and Similar Energy Storage Devices. Deerfield Beach: Florida Educational Seminars,Inc,1997. 243--249. [3] James K. Aerogel capacitor performance. Proceedings 7th International Seminar on Double Layer Capacitors and Similar Energy Storage Devices. Deerfield Beach: Florida Educational Seminars, Inc, 1997. 102--106. [4] Ma R Z, Liang J, Wei B Q. J. Power Source, 1999, 84 (1): 126--129. [5] Liu K C, Marc A. J. Electrochem. Soc., 1996, 143 (1): 124--130. [6] Zheng J P, Cygan T W, Jow T R. J. Electrochem. Soc., 1995, 142(8): 2699--2703. [7] Chuan Lin, Ritter James A, Popov Brank N. J. Electrochem. Soc., 1998, 145(12): 4097--4101. [8] Rudge A, Davey J, Raistrick I. J. Power Sourse, 1994, 47 (1): 89--94. [9] Osaka T, Ogano S, Naoi K, et al. J. Electrochem. Soc., 1989, 136 (2): 306--309. [10] Evans D. High Energy Density Electrolytic-Electrochemical Hybrid capacitor. Proc.14th Capacitor & |
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