物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2014年
3期
485-491
,共7页
孙现众%张熊%黄博%马衍伟
孫現衆%張熊%黃博%馬衍偉
손현음%장웅%황박%마연위
双电层电容器%混合型电池-超级电容器%吸液量%表观接触角%自放电
雙電層電容器%混閤型電池-超級電容器%吸液量%錶觀接觸角%自放電
쌍전층전용기%혼합형전지-초급전용기%흡액량%표관접촉각%자방전
Electrical double-layer capacitor%Hybrid battery-supercapacitor%Electrolyte uptake%Apparent contact angle%Self-discharge
隔膜是双电层电容器和混合型电池-超级电容器等电化学储能器件的重要组成元件.本文采用1 mol?L-1四乙基四氟硼酸铵的丙烯碳酸酯电解液制备了基于活性炭的扣式双电层电容器,并采用1 mol?L-1六氟磷酸锂锂离子电解液制备了(LiNi0.5Co0.2Mn0.3O2+活性炭)/石墨体系的混合型电池-超级电容器.研究了不同类型隔膜的物理化学性能,以及其对双电层电容器和混合型电池-超级电容器的电化学性能的影响.四种隔膜分别是无纺布聚丙烯毡、多孔聚丙烯薄膜、Al2O3涂层的聚丙烯薄膜和纤维素纸隔膜.进行了表面形貌、差示扫描量热、电解液吸液量和表观接触角测试表征.电化学测试表明,采用纤维素隔膜的双电层电容器具有最高的比电容和更优的倍率性能,电容器的自放电性能差别不大.而对于混合型电池-超级电容器,采用聚丙烯薄膜和无纺布聚丙烯毡隔膜器件的比容量比其它器件约高20%,且采用纤维素隔膜的器件自放电率最高.
隔膜是雙電層電容器和混閤型電池-超級電容器等電化學儲能器件的重要組成元件.本文採用1 mol?L-1四乙基四氟硼痠銨的丙烯碳痠酯電解液製備瞭基于活性炭的釦式雙電層電容器,併採用1 mol?L-1六氟燐痠鋰鋰離子電解液製備瞭(LiNi0.5Co0.2Mn0.3O2+活性炭)/石墨體繫的混閤型電池-超級電容器.研究瞭不同類型隔膜的物理化學性能,以及其對雙電層電容器和混閤型電池-超級電容器的電化學性能的影響.四種隔膜分彆是無紡佈聚丙烯氈、多孔聚丙烯薄膜、Al2O3塗層的聚丙烯薄膜和纖維素紙隔膜.進行瞭錶麵形貌、差示掃描量熱、電解液吸液量和錶觀接觸角測試錶徵.電化學測試錶明,採用纖維素隔膜的雙電層電容器具有最高的比電容和更優的倍率性能,電容器的自放電性能差彆不大.而對于混閤型電池-超級電容器,採用聚丙烯薄膜和無紡佈聚丙烯氈隔膜器件的比容量比其它器件約高20%,且採用纖維素隔膜的器件自放電率最高.
격막시쌍전층전용기화혼합형전지-초급전용기등전화학저능기건적중요조성원건.본문채용1 mol?L-1사을기사불붕산안적병희탄산지전해액제비료기우활성탄적구식쌍전층전용기,병채용1 mol?L-1륙불린산리리리자전해액제비료(LiNi0.5Co0.2Mn0.3O2+활성탄)/석묵체계적혼합형전지-초급전용기.연구료불동류형격막적물이화학성능,이급기대쌍전층전용기화혼합형전지-초급전용기적전화학성능적영향.사충격막분별시무방포취병희전、다공취병희박막、Al2O3도층적취병희박막화섬유소지격막.진행료표면형모、차시소묘량열、전해액흡액량화표관접촉각측시표정.전화학측시표명,채용섬유소격막적쌍전층전용기구유최고적비전용화경우적배솔성능,전용기적자방전성능차별불대.이대우혼합형전지-초급전용기,채용취병희박막화무방포취병희전격막기건적비용량비기타기건약고20%,차채용섬유소격막적기건자방전솔최고.
Separators are important components in electrochemical energy storage devices such as electrical double layer capacitors (EDLCs) and hybrid battery-supercapacitors. We prepared activated carbon-based EDLCs using an electrolyte of 1 mol?L-1 tetraethyl ammonium tetrafluoroborate (Et4NBF4) in propylene carbonate (PC), and (LiNi0.5Co0.2Mn0.3O2+activated carbon)/graphite hybrid battery-supercapacitors using a 1 mol?L-1 lithium hexafluorophate (LiPF6) Li-ion electrolyte. The physicochemical properties and effect of various separators on the electrochemical properties of the EDLC and hybrid battery-supercapacitor were studied. The four separators were nonwoven polypropylene (PP) mat, porous PP membrane, Al2O3-coated PP membrane, and cellulose paper. The surface morphology, differential scanning calorimetry, electrolyte uptake, and apparent contact angle were investigated. The electrochemical characterizations of coin cells indicated that the EDLC with cellulose separator had the highest specific capacitance and rate capability. Differences in the self-discharge of the four cells were not obvious. The specific capacities of the hybrid battery-supercapacitors with PP membrane and nonwoven PP mat separators were approximately 20% higher than the others. The capacitor with the cellulose paper separator had the highest self-discharge rate.
