摘要
以煤焦油沥青为原料,在不同温度下调制得到碳质微晶结构的中间相沥青,采用化学活化法制得超级电容器用高比表面积活性炭。以制备的活性炭作电极材料组装模拟电容器,6mol/L KOH溶液为电解液,考察了中间相沥青的调制温度对活性炭结构和电容行为的影响。结果表明:随着调制温度的提高,活性炭比表面积先增加后减小,在450℃时达到最大值,为3250m2/g;制备的活性炭孔径主要集中在1~4nm范围内;在350℃时,无定形结构的中间相沥青有利于扩孔,制得的活性炭具有较高的中孔含量;随着调制温度的继续提高,中孔含量下降;活性炭比电容量随着调制温度的提高先增大后减小,450℃时达到最大值,为215F/g。
Using coal-tar pitch as raw material, the mesophase pitches with carbonaceous crystallites were produced at different temperatures, and the ultra-high surface area activated carbons for supcrcapacitors were prepared by chemical activation. Coin type cells using the prepared activated carbons as electrode materials wcrc assembled, and 6 mol/L KOH solution was selected as the electrolyte. The effects of modification process of the mcsophasc pitches on the structures and the electrochemical behaviors of activated carbons were investigated. The results indicate that the specific surface area of activated carbons increases while then decreases with increasing temperature, and the surface area of activated carbon modificated at 450℃ is 3 250 m2/g. The micropore sizes are ranged from lnm to 4 nm, and the unformed structure modificated at 350℃ is beneficial to pore-widening, so the activated carbons exhibits higher mesopore volume. When the temperature increases, the mesopore volume decreases. The capacitance of the activated carbon increases while then decreases with increasing temperature, and the maximum specific capacitance is 215 F/g, which is acquired from the carbon modificated at 450 ℃.
出处
《中国有色金属学报》
EI
CAS
CSCD
北大核心
2007年第3期481-486,共6页
The Chinese Journal of Nonferrous Metals
基金
湖南省自然科学基金资助项目(03JJY3080)
关键词
超级电容器
中间相沥青
活性炭
化学活化
supercapacitor
mesophase pitch
activated carbon
chemical activation
