功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
6期
752-755
,共4页
田莹莹%刘恩辉%沈海杰%向晓霞%吴玉虎%谢慧%胡添添
田瑩瑩%劉恩輝%瀋海傑%嚮曉霞%吳玉虎%謝慧%鬍添添
전형형%류은휘%침해걸%향효하%오옥호%사혜%호첨첨
茶籽壳%化学活化法%活性炭%超级电容器
茶籽殼%化學活化法%活性炭%超級電容器
다자각%화학활화법%활성탄%초급전용기
tea seed shell%chemical activation%activated carbon%supercapacitor
以茶籽壳为原料,以K2CO3作为活化剂,制备了新型活性炭。用氮气吸脱附法对活性炭的孔结梢进行了分析。以活性炭为电极材料,6mol/LKOH溶液为电解液组装成超级电容器,利用恒电流充放电、循环伏安、交流阻抗等电化学测试方法研究其电化学性能。结果表明,活化后的茶籽壳炭,其比表面积高达1272m^2/g,比电容高达150F/g,研究表明茶籽壳活性炭适用于超级电容器的电极活性材料。
以茶籽殼為原料,以K2CO3作為活化劑,製備瞭新型活性炭。用氮氣吸脫附法對活性炭的孔結梢進行瞭分析。以活性炭為電極材料,6mol/LKOH溶液為電解液組裝成超級電容器,利用恆電流充放電、循環伏安、交流阻抗等電化學測試方法研究其電化學性能。結果錶明,活化後的茶籽殼炭,其比錶麵積高達1272m^2/g,比電容高達150F/g,研究錶明茶籽殼活性炭適用于超級電容器的電極活性材料。
이다자각위원료,이K2CO3작위활화제,제비료신형활성탄。용담기흡탈부법대활성탄적공결소진행료분석。이활성탄위전겁재료,6mol/LKOH용액위전해액조장성초급전용기,이용항전류충방전、순배복안、교류조항등전화학측시방법연구기전화학성능。결과표명,활화후적다자각탄,기비표면적고체1272m^2/g,비전용고체150F/g,연구표명다자각활성탄괄용우초급전용기적전겁활성재료。
Novel activated carbon has been prepared from tea seed shell by activation with K2CO3. The porosity of the activitated carbon sample was studied by the nitrogen adsorption at 77K. The supercapacitors were assembled with carbon electrode and electrolyte of 6mol/L KOH solution. Their electrochemical properties were investigated by galvanostatic charge/discharge, cyclic voltammogram and impedance spectrum. The results show that the specific surface area of the activated carbon is sharply increased after activation, the value is up to 1272m2/g, and the electrochemical performance is obviously improved, the specific capacitance is up to 150F/g, which suggests that it may be promising candidates for supercapacitors.
