绝缘材料
絕緣材料
절연재료
INSULATING MATERIALS
2014年
3期
41-44
,共4页
雷伟群%郑晓泉%贺博%金阳%张丽娟%徐祥波
雷偉群%鄭曉泉%賀博%金暘%張麗娟%徐祥波
뢰위군%정효천%하박%금양%장려연%서상파
超级电容器%碳电极材料%活化处理%比表面积%孔径分布
超級電容器%碳電極材料%活化處理%比錶麵積%孔徑分佈
초급전용기%탄전겁재료%활화처리%비표면적%공경분포
super capacitor%carbon electrode material%activating treatment%specific surface area%pore size distribution
运用物理化学联合活化法,在不同活化时间对碳材料进行处理制备活性炭,优化了超级电容器碳电极材料的制作工艺。分析比较了所制电极材料的表面形态,并测定了比表面积、孔容和孔径等活性炭的结构参数。结果表明:活化时间为1.5 h可以制得满足要求的活性炭材料。
運用物理化學聯閤活化法,在不同活化時間對碳材料進行處理製備活性炭,優化瞭超級電容器碳電極材料的製作工藝。分析比較瞭所製電極材料的錶麵形態,併測定瞭比錶麵積、孔容和孔徑等活性炭的結構參數。結果錶明:活化時間為1.5 h可以製得滿足要求的活性炭材料。
운용물이화학연합활화법,재불동활화시간대탄재료진행처리제비활성탄,우화료초급전용기탄전겁재료적제작공예。분석비교료소제전겁재료적표면형태,병측정료비표면적、공용화공경등활성탄적결구삼수。결과표명:활화시간위1.5 h가이제득만족요구적활성탄재료。
Activated carbons were prepared using physical-chemistry combined activating method under dif-ferent activating time, and the fabrication process of carbon electrode materials for super capacitor was optimized. The surface morphology of the electrode materials was analyzed and compared, and the param-eters such as specific surface area, volume and diameter were measured. The results show that when the activating time is 1.5 h, the activated carbon samples that meet the requirements are obtained.
