电子元件与材料
電子元件與材料
전자원건여재료
ELECTRONIC COMPONENTS & MATERIALS
2015年
7期
31-34
,共4页
邹龙生%黄宁湘%杨峰%程翠华%赵勇
鄒龍生%黃寧湘%楊峰%程翠華%趙勇
추룡생%황저상%양봉%정취화%조용
TiO2薄膜%微米级孔道%电子%传输%染料敏化太阳能电池%光电转换效率
TiO2薄膜%微米級孔道%電子%傳輸%染料敏化太暘能電池%光電轉換效率
TiO2박막%미미급공도%전자%전수%염료민화태양능전지%광전전환효솔
TiO2 film%micron holes%electron%transfer%dye-sensitized solar cells%photoelectric conversion efficiency
用Pechini法在FTO导电玻璃上制备不同厚度的TiO2薄膜,并组装成染料敏化太阳能电池。XRD结果表明,在450℃退火1h得到了主相为锐钛矿的TiO 2。SEM结果表明,TiO 2薄膜表面疏松多孔,粒径均匀,厚度在6~15μm。紫外-可见光谱分析表明,TiO2薄膜染料的吸附量随薄膜厚度的增加而增加。光电性能研究表明,在0.005 W/cm2的弱光照下,膜1(厚6μm)和膜2(厚15μm)光阳极的光电转换效率分别为6.85%和11.83%;在0.1 W/cm2的模拟标准太阳光照下,膜1和膜2光阳极的光电转换效率分别为1.72%和2.39%。
用Pechini法在FTO導電玻璃上製備不同厚度的TiO2薄膜,併組裝成染料敏化太暘能電池。XRD結果錶明,在450℃退火1h得到瞭主相為銳鈦礦的TiO 2。SEM結果錶明,TiO 2薄膜錶麵疏鬆多孔,粒徑均勻,厚度在6~15μm。紫外-可見光譜分析錶明,TiO2薄膜染料的吸附量隨薄膜厚度的增加而增加。光電性能研究錶明,在0.005 W/cm2的弱光照下,膜1(厚6μm)和膜2(厚15μm)光暘極的光電轉換效率分彆為6.85%和11.83%;在0.1 W/cm2的模擬標準太暘光照下,膜1和膜2光暘極的光電轉換效率分彆為1.72%和2.39%。
용Pechini법재FTO도전파리상제비불동후도적TiO2박막,병조장성염료민화태양능전지。XRD결과표명,재450℃퇴화1h득도료주상위예태광적TiO 2。SEM결과표명,TiO 2박막표면소송다공,립경균균,후도재6~15μm。자외-가견광보분석표명,TiO2박막염료적흡부량수박막후도적증가이증가。광전성능연구표명,재0.005 W/cm2적약광조하,막1(후6μm)화막2(후15μm)광양겁적광전전환효솔분별위6.85%화11.83%;재0.1 W/cm2적모의표준태양광조하,막1화막2광양겁적광전전환효솔분별위1.72%화2.39%。
TiO2films with different thicknesses were fabricated on FTO substrates by Pechini method. XRD results show that the films annealed at 450℃ for 1 h are mainly consisted of anatase structure. SEM results indicate that obtained TiO2films are porous structure with uniform size and thickness between 6μm and 15μm. UV absorption spectra show that the absorption quantity of dye increases with the raising thickness of TiO2 films. Photoelectric conversion efficiencies of dye-sensitized solar cells (DSSCs) for one layer film (6 μm) and two layers film (15 μm) under low light intensity (0.005 W/cm2) are 6.85% and 11.83%,and those of the DSSCs for one layer film and two layers film under AM 1.5 G (0.1 W/cm2) are 1.72% and 2.39%, respectively.
