1. 毕业设计(论文)的内容和要求
本课题以提高CIGS太阳能电池的光电转换效率为目标,研究制备具有光谱调控能力的光转换材料。
首先制备具有光谱调控能力的稀土掺杂发光材料,要求在紫外区域有较宽的吸收,通过能量传递过程将高能紫外光转换为可被太阳能电池吸收的可见光,拓宽其光谱吸收范围。
其次将制备的发光材料与PVDF薄膜复合制备光转换薄膜。
2. 参考文献
根据毕业要求指点2.3,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。
以下是与本课题相关的部分文献列表: [1]. 姜玲. 下转换材料合成及其在新型太阳电池中的应用研究. 中国科学技术大学, 2017.[2]. Day J, Senthilarasu S and Mallick TK. Improving spectral modification for applications in solar cells: A review. Renewable Energy. 2019; 132: 186-205.[3]. 罗培青. HWCVD制备硼掺杂氢化纳米硅及银纳米粒子增强硅薄膜太阳电池光谱响应的研究. 上海交通大学, 2009.[4]. Huang X, Han S, Huang W and Liu X. Enhancing solar cell efficiency: the search for luminescent materials as spectral converters. Chemical Society Reviews. 2013; 42: 173-201.[5]. Richards BS. Luminescent layers for enhanced silicon solar cell performance: Down-conversion. Solar Energy Materials and Solar Cells. 2006; 90: 1189-207.[6]. Rahman NU, Khan WU, Li W, et al. Simultaneous enhancement in performance and UV-light stability of organic-inorganic perovskite solar cells using a samarium-based down conversion material. Journal of Materials Chemistry A. 2019; 7: 322-9.[7]. Wang L, Noh HM, Moon BK, Choi BC, Jeong JH and Shi J. Luminescent properties and energy transfer of Sm3 doped Sr2CaMo1-xWxO6 as a potential phosphor for white LEDs. Journal of Alloys and Compounds. 2016; 663: 808-17.[8]. 常建军, 黄世华, 彭洪尚. 稀土纳米发光材料的燃烧法制备及光谱性质. 光谱学与光谱分析. 2006: 231-4.[9]. 台玉萍. 稀土掺杂量子剪裁发光材料在晶硅太阳能电池中的应用基础研究. 西北大学, 2016.[10]. Swapna K, Mahamuda S, Rao AS, Sasikala T and Moorthy LR. Visible luminescence characteristics of Sm3 doped Zinc Alumino Bismuth Borate glasses. Journal of Luminescence. 2014; 146: 288-94.[11]. Zhou J, Teng Y, Ye S, Zhuang Y and Qiu J. Enhanced downconversion luminescence by co-doping Ce3 in Tb3 -Yb3 doped borate glasses. Chemical Physics Letters. 2010; 486: 116-8.[12]. 赵瑾. 稀土掺杂下转换发光材料的光谱调制和能量传递研究. 西北大学, 2016.[13]. Balaji D, Kavirasu K, Durairajan A and Babu SM. Photoluminescence properties of novel Sm3 and Dy3 co-activated CsGd(WO4)2 phosphors. Journal of Alloys and Compounds. 2015; 637: 350-60.[14]. Ray S, Banerjee A and Pramanik P. Shape controlled synthesis, characterization and photoluminescence properties of YVO4:Dy3 /Eu3 phosphors. Materials Science and Engineering: B. 2009; 156: 10-7.[15]. Xu W, Song H, Yan D, et al. YVO4:Eu3 ,Bi3 UV to visible conversion nano-films used for organic photovoltaic solar cells. Journal of Materials Chemistry. 2011; 21: 12331-6.[16]. Huang XY, Wang JX, Yu DC, Ye S, Zhang QY and Sun XW. Spectral conversion for solar cell efficiency enhancement using YVO4:Bi3 ,Ln3 (Ln = Dy, Er, Ho, Eu, Sm, and Yb) phosphors. Journal of Applied Physics. 2011; 109.[17]. Kong L, Xiao X, Yu J, Mao D and Lu G. Color-tunable luminescence properties of Sm3 /Dy3 co-doped NaLa(MoO4)2 phosphors and their energy transfer mechanism. Journal of Materials Science. 2017; 52: 6310-21.[18]. Jie Liu, Hongzhou Lian, Chunshan Shi. Improved optical photoluminescence by charge compensation in the phosphor system CaMoO4:Eu3 [J]. Optical Materials. 2007, 29(12): 1591-1593.
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