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1、有机无机杂化的SnS染料敏化太阳能电池指导老师:周雪琴报告人:崔雪萍选题背景及依据研究现状光伏器件核泄漏危机能源危机第一代光伏器件第二代光伏器件(薄膜太阳能电池)单晶硅多晶硅有机聚合物电池(OSC)染料敏化太阳电池(DSC)无毒、环境友好、组成元素含量丰富的全固态薄膜电池基于SnS的光伏器件SnS的基本特性性质稳定、无毒、环境友好、成本低、组成元素地壳含量丰富。聚(3-己基噻吩)(P3HT)在各种共轭聚合物空穴传输材料中最有前景、已得到广泛研究.基于SnS异质节光伏器件K.T.RamakrishnaReddyetal.首次将SnS应用于光伏器件p-SnS/n-CdS:开路电压:260mv,
2、短路电流:9.6mA·cm-2,填充因子:0.53,光电效率:1.3%PrasertSinsermsuksakuletal.制备了glass/Mo/SnS/Zn(O,S)/ZnO/ITO光电效率:2.04%短路电流:19.4mA/cm-2开路电压:0.244VI-Vcurveforp-SnS/n-CdSIPCEforp-SnS/n-CdS研究现状GuanghuiYueetal.B/P掺杂SnS同质结光伏器件短路电流:7.64mA/cm2,开路电压:0.69V,填充因子:0.53,光电效率:1.95%光生载流子快速、直接传输、电荷分离有效,光生电流高;成本低基于SnS同质结光伏器件SnS敏化
3、液态电池B.Subramanianetal.电化学沉积方法p-SnS
4、Fe3+,Fe2+
5、Pt光电效率:0.54%短路电流:0.65mA·cm−2开路电压:0.32V填充因子:0.65Y.Wangetal.以SnS为光吸收剂,采用氧化还原对碘/碘化钾的液体电解,制备了SnS染料敏化光伏器件,光电效率为1.95%(短路电流:0.3mA/cm2,开路电压:0.471V,填充因子0.73)。基于SnS有机无机杂化光伏器件B.Reeja-Jayanetal.TiO2/SnS/P3HT/Au光电效率:0.01%(很低)开路电压:0.13,短路电流:0.34。TingliMaetal.TiO2/SnS
6、/P3HT/AgTiO2/SnS/P3HT/Ag光电效率:2.81%开路电压:0.85v参考文献[1]K.T.RamakrishnaReddyetal./SolarEnergyMaterials&SolarCells90(2006)3041–3046.[2]WeiGuo,YihuaShen,etc,2012,Highlyefficientinorganic–organicheterojunctionsolarcellsbasedonSnS-sensitizedsphericalTiO2electrodes,Chem.Commun.,2012,48,6133–6135.[3]B.Reeja-
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