Acta Chimica Sinica ›› 2009, Vol. 67 ›› Issue (14): 1559-1565. Previous Articles     Next Articles

Original Articles

合成路径对超级电容器用二氧化锰性质的影响

万传云*,a 王利军b 沈绍典a 朱 贤a

  

  1. (a上海应用技术学院化学工程系 上海 200235)
    (b上海第二工业大学环境工程系 上海 201209)

  • 投稿日期:2008-11-02 修回日期:2008-12-28 发布日期:2009-07-28
  • 通讯作者: 万传云

Effect of Synthesis Routes on the Performances of MnO2 for Electrochemical Capacitors

Wan, Chuanyun *,a Wang, Lijun b Shen, Shaodian a Zhu, Xian a

  

  1. (a School of Chemical Engineering, Shanghai Institute of Technology, Shanghai 200235)
    (b Department of Environment Engineering, Shanghai Second Polytechnic University, Shanghai 201209)
  • Received:2008-11-02 Revised:2008-12-28 Published:2009-07-28
  • Contact: ChuanYun Wan

The effect of synthesis routes on the performances of MnO2 used as an active material in electrochemical capacitors was studied by two different routes using 0.15 mol•L-1 manganese acetate and 0.1 mol•L-1 potassium permanganate as starting materials. Method 1 was addition of manganese acetate solution to potassium permanganate solution and in method 2, the solutions were swapped. The XRD diffractions and the SEM images of samples by two routes showed that the obtained MnO2 were both amorphous like and their particle sizes are ca. 200~300 nm. By BET method, MnO2 particles using method 1 have higher surface area value (329 m2•g-1), uniform size distribution (in the range of 6~12 nm) and lower pore volume (0.45 cm3•g-1), while method 2 produced particles with wide continuous pore size distribution (from micropores to macropores, mean pore size 11.4 nm), lower surface area (298 m2/g) and higher pore volume (0.66 cm3•g-1). Impedance spectroscopy studies revealed that the charge transfer resistance of MnO2 by methode 2 has higher value than that of MnO2 by method 1. The results of cyclic voltammograms showed that the specific capapcity of MnO2 by method 2 at low scan rate (203 F•g-1 at 2 mV•s-1) was larger than that of MnO2 by method 1 (189 F•g-1 at 2 mV•s-1). With the increase of the scan rate, the loss of the specific capacitance of MnO2 by method is smaller than that of MnO2 by method. The charge-discharge measurements showed that MnO2 by method exihibits better rate capability, for the specific capacity of MnO2 by method 1 at 2 A•g-1 is 96.3% of its capacity at 0.1 A•g-1, while the spcific capacity of MnO2 by method 2 at 2 A•g-1 is 92.5% of its value at 0.1 A•g-1. All the results indicated that the differences of the performances of MnO2 from the different synthesis routes arised from the different microstructure characteristics of MnO2.

Key words: electrochemical capacitor, synthesis route, manganese dioxide