Activated carbon for electric double-layer capacitor(EDLC) application was prepared by steam activation of resole phenolic formaldehyde resin through changing the activating time(PFR(1-5H). The BET specific surface area and pore structure parameter f all samples obtained were determined by the low temperature gas adsorption isotherm. It is found that the BET specific surface area and the mesopore ratio of the activated carbon are increased with the activating time increasing. The electrochemical test indicates that the model EDLC prepared by PFR5H (5h activating time) shows the highest specific capacitance of 106.5F/g in organic system with the constant discharge current of 50mA/g. When the constant discharge current is 1000mA/g, its specific capacitance remains 99.7F/g and only decreases 6.4% in the same system. And the model EDLC prepared by PFR5H shows good rate capability. AC impedance analyses show that the model EDLC prepared by PFR5H has the lowest resistance, so it has remarkable specific capacitance and good power capability.
HAN Peng-Xian
,
WANG Cheng-Yang
,
SHI Zhi-Qiang
,
LU Jia-Hui
,
QIN Jun
,
YAO Guo-Fu
. Electrode Materials of Electric Double Layer Capacitor Prepared by Steam
Activation of Phenolic Formaldehyde Resin[J]. Journal of Inorganic Materials, 2007
, 22(6)
: 1046
-1050
.
DOI: 10.3724/SP.J.1077.2007.01046
[1] Conway B E, Pell W G J. Power Sources, 2002, 105 (1): 169--181.
[2] 张治安, 杨邦朝, 邓梅根, 等(ZHANG Zhi-An, et al). 无机材料学报(Journal of Inorganic Materials), 2005, 20 (3): 529--536.
[3] 王晓峰, 王大志, 梁吉(WANG Xiao-Feng, et al). 无机材料学报(Journal of Inorganic Materials), 2002, 17 (6): 1167--1173.
[4] 孟庆函, 张睿, 李开喜(MENG Qing-Han, et al). 无机材料学报(Journal of Inorganic Materials), 2003, 18 (5): 1027--1032.
[5] Qu D. J. Power Sources, 2002, 109: 403--411.
[6] Bonnefoi L, Simon P, Fauvarque J F, et al. Carbon, 2003, 41: 2662--2664.
[7] Pell G, Conway B E. J. Power Sources, 2001, 96: 57--67.
[8] 李强, 李开喜, 王芙蓉, 等(LI Qiang, et al). 新型炭材料, 2005, 20 (4): 335--342.
[9] 文跃华, 曹高萍, 程杰, 等(WEN Yue-Hua, et al). 无机材料学报(Journal of Inorganic Materials), 2006, 21 (2): 441--447.
[10] 庄新国, 杨裕生, 嵇友菊, 等. 物理化学学报, 2003, 19 (8): 689--694.
[11] 张琳, 刘洪波, 李步广, 等. 湖南大学学报(自然科学版), 2005, 32 (3): 23--27.
[12] Teng H, Wang S C. Carbon, 2000, 38: 817--824.
[13] Zhou Weifang. Electrochemistry Measure . Shanghai : Shanghai Scientific & Technical Publishers, 1983. 342--356.
[14] Song Shizhe. Corrosion Electrochemical Methods. Beijing: Chemical Industry Press, 1988. 90--99.
[15] Momma T, Liu X J, Osaka T, et al. J. Power Source, 1996, 60: 249--253. [16] Potter C, Tabema P L, Simon P, et al. Electrochemica Acta, 2004, 49: 905--912.
