新型炭材料
新型炭材料
신형탄재료
New Carbon Materials
2015年
5期
391-396,378
,共7页
郑威%齐涛%张永超%石海英%田均庆
鄭威%齊濤%張永超%石海英%田均慶
정위%제도%장영초%석해영%전균경
染料敏化太阳能电池%对电极%多壁碳纳米管%石墨%光催化活性
染料敏化太暘能電池%對電極%多壁碳納米管%石墨%光催化活性
염료민화태양능전지%대전겁%다벽탄납미관%석묵%광최화활성
DSSC%Counter electrodes%MWCNTs%Graphite%Photocatalytic activity
经酸化处理的多壁碳纳米管( MWCNTs)与纳米石墨复合后沉积在FTO导电玻璃基底上制备出染料敏华太阳能电池薄膜对电极. 利用SEM﹑TEM﹑EDS与IR光谱对其进行表征. 以MgO掺杂的TiO2 薄膜为光阳极对电池通过循环伏安法( CV曲线)﹑电化学阻抗谱( EIS)和伏安特性曲线( J-V)进行光电性能分析. 结果表明:酸化处理的MWCNTs与纳米石墨复合对电极展现出优异的光催化性能,有利于电池光电性能的提高. 电池开路电压及短路电流密度分别可达 0. 53 V﹑4. 67 mA/cm2 ,其光电转换效率达到4. 10%,与铂对电极的性能相当.
經痠化處理的多壁碳納米管( MWCNTs)與納米石墨複閤後沉積在FTO導電玻璃基底上製備齣染料敏華太暘能電池薄膜對電極. 利用SEM﹑TEM﹑EDS與IR光譜對其進行錶徵. 以MgO摻雜的TiO2 薄膜為光暘極對電池通過循環伏安法( CV麯線)﹑電化學阻抗譜( EIS)和伏安特性麯線( J-V)進行光電性能分析. 結果錶明:痠化處理的MWCNTs與納米石墨複閤對電極展現齣優異的光催化性能,有利于電池光電性能的提高. 電池開路電壓及短路電流密度分彆可達 0. 53 V﹑4. 67 mA/cm2 ,其光電轉換效率達到4. 10%,與鉑對電極的性能相噹.
경산화처리적다벽탄납미관( MWCNTs)여납미석묵복합후침적재FTO도전파리기저상제비출염료민화태양능전지박막대전겁. 이용SEM﹑TEM﹑EDS여IR광보대기진행표정. 이MgO참잡적TiO2 박막위광양겁대전지통과순배복안법( CV곡선)﹑전화학조항보( EIS)화복안특성곡선( J-V)진행광전성능분석. 결과표명:산화처리적MWCNTs여납미석묵복합대전겁전현출우이적광최화성능,유리우전지광전성능적제고. 전지개로전압급단로전류밀도분별가체 0. 53 V﹑4. 67 mA/cm2 ,기광전전환효솔체도4. 10%,여박대전겁적성능상당.
A counter-electrode ( CE) for dye-sensitized solar cells ( DSSCs) was prepared by coating a slurry containing acid-oxi-dized multi-wall carbon nanotubes and nano-graphite powder onto a fluorine-doped tin oxide conducting glass substrate. The samples were characterized by SEM, TEM, EDS and IR spectroscopy. The CE performance in the DSSCs with MgO-doped TiO2 as the pho-toanode was investigated by measurements of current-voltage curves, cyclic voltammetry and electrochemical impedance spectrosco-py. Results show that the cell with the CE exhibits the best photoelectric properties of all the carbon-based CEs investigated. The short-circuit current density (Jsc) is 4. 67 mA/cm2, the open-circuit voltage (Voc) is 0. 53 V and photoelectric conversion efficiency is up to 4. 10%, which are comparable with those of the Pt-based CE in DSSCs.
