功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
22期
3084-3087
,共4页
景磊%赵东林%孙杰%高云雷%谢卫刚%沈曾民
景磊%趙東林%孫傑%高雲雷%謝衛剛%瀋曾民
경뢰%조동림%손걸%고운뢰%사위강%침증민
超级电容器%中间相沥青基活性炭微球%聚苯胺%原位聚合%电化学性能
超級電容器%中間相瀝青基活性炭微毬%聚苯胺%原位聚閤%電化學性能
초급전용기%중간상력청기활성탄미구%취분알%원위취합%전화학성능
supercapacitor%activated mesocarbon microbeads%polyaniline%in-situ polymerization%electrochemical properties
采用原位聚合法,以过硫酸铵为氧化剂,在比表面积为2945cm2/g的中间相沥青基活性炭微球(AMCMB)表面引发苯胺聚合,制备中间相沥青基活性炭微球/聚苯胺复合材料(AMCMB/PANI)。利用扫描电镜、X射线衍射和傅里叶变换-红外光谱分析,考察其微观结构和表面形貌;通过恒流充放电、循环伏安及交流阻抗测试,研究其在6mol/LKOH溶液中的电化学性能。在电流密度为0.02A/g时,AMCMB/PANI电极的比容量为387.72F/g,与AMCMB电极的比容量相比,提高了57.46%,说明少量聚苯胺的加入可以显著地提高电极材料的比容量;当电流密度增大1000倍时,AMCMB/PANI电极的比容量为157.68F/g,表现出好的大电流充放电能力。
採用原位聚閤法,以過硫痠銨為氧化劑,在比錶麵積為2945cm2/g的中間相瀝青基活性炭微毬(AMCMB)錶麵引髮苯胺聚閤,製備中間相瀝青基活性炭微毬/聚苯胺複閤材料(AMCMB/PANI)。利用掃描電鏡、X射線衍射和傅裏葉變換-紅外光譜分析,攷察其微觀結構和錶麵形貌;通過恆流充放電、循環伏安及交流阻抗測試,研究其在6mol/LKOH溶液中的電化學性能。在電流密度為0.02A/g時,AMCMB/PANI電極的比容量為387.72F/g,與AMCMB電極的比容量相比,提高瞭57.46%,說明少量聚苯胺的加入可以顯著地提高電極材料的比容量;噹電流密度增大1000倍時,AMCMB/PANI電極的比容量為157.68F/g,錶現齣好的大電流充放電能力。
채용원위취합법,이과류산안위양화제,재비표면적위2945cm2/g적중간상력청기활성탄미구(AMCMB)표면인발분알취합,제비중간상력청기활성탄미구/취분알복합재료(AMCMB/PANI)。이용소묘전경、X사선연사화부리협변환-홍외광보분석,고찰기미관결구화표면형모;통과항류충방전、순배복안급교류조항측시,연구기재6mol/LKOH용액중적전화학성능。재전류밀도위0.02A/g시,AMCMB/PANI전겁적비용량위387.72F/g,여AMCMB전겁적비용량상비,제고료57.46%,설명소량취분알적가입가이현저지제고전겁재료적비용량;당전류밀도증대1000배시,AMCMB/PANI전겁적비용량위157.68F/g,표현출호적대전류충방전능력。
Activated mesocarbon microbeads/polyaniline composite (AMCMB/PAN1) was synthesized by ln-SltU polymerization of aniline on activated mesocarbon microbeads (AMCMB) with high specific surface area of 2945cm2/g, using ammonium persul~ate as oxidant. Microstructure and morphology of AMCMB/PANI were investigated by scanning electron microscope, X-ray diffraction and Fourier transform infrared spectroscopy. The electrochemical properties of AMCMB/PANI were studied in 6mol/L KOH solution by galvanostatic charge/discharge, cyclic voltammetry and electrochemical impedance spectroscopy. The specific capacitance of AMCMB/PANI electrode was 387.72F/g under the specific current of 0.02A/g by constant current charge/dis- charge technique, and increased by 57. 46%, comparing with the specific capacitance of AMCMB electrode, showing that a small amount of polyaniline could significantly improve the specific capacitance of electrode ma- terial. When the specific current increased 1000 times, the specific capacitance of AMCMB/PANI electrode was 157.68F/g, indicating good rate capability.