梯度掺杂提升无空穴传输层CsSnI_(3)电池性能研究  

Enhance the Performance of Hole-transport-layer-free CsSnI_(3) Cells Through Gradient Doping

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作  者:张西丽 王建峰 李银 曹丹 ZHANG Xili;WANG Jianfeng;LI Yin;CAO Dan(College of Sciences,China Jiliang University,Hangzhou,310018,CHN)

机构地区:[1]中国计量大学理学院,杭州310018

出  处:《固体电子学研究与进展》2023年第1期57-63,共7页Research & Progress of SSE

基  金:国家自然科学基金资助项目(11504356);浙江省自然科学基金资助项目(LY19A040006,LY22A040002)。

摘  要:为了探索高效无毒的钙钛矿太阳能电池,以太阳能电池模拟软件SCAPS-1D为工具,研究基于梯度掺杂CsSnI_(3)吸收层的无空穴传输层太阳能电池。首先研究均匀CsSnI_(3)吸收层的电池,在其基础上提出梯度掺杂吸收层的电池,并对吸收层掺杂梯度、平均掺杂浓度和缺陷水平进行分析和优化,最后研究了吸收层子层数的影响。研究发现梯度掺杂能够产生附加电场,可以显著提升电池转换效率。对于吸收层厚度为1000 nm的电池,通过梯度掺杂优化可以将最大转换效率从22.28%提升到25.04%。即使梯度掺杂的子层数只有两层,也能取得理想的提升效果。In order to explore efficient non-toxic perovskite solar cells,hole transport layer(HTL)-free CsSnI3 solar cells with gradient-doping absorption layer were numerically studied by using the solar cell simulation software SCAPS-1D.Firstly,the cells with a uniform-doping absorption layer were studied.On this basis,the cells with a gradient-doping absorption layer were proposed and the influences of doping gradient,average doping level and defect concentration were systematically investigated.Finally,the effect of the number of sub-layers was studied.It is found that the gradient doping can effectively enhance the performance due to the extra electric field produced by gradient doping.For the cell with a 1000 nm-thick absorption layer,the efficiency can be increased from 22.28%to 25.04%through gradient doping and device optimization.Even if the number of the sub-layers wad reduced to two,the gradient doping can also significantly enhance the cell performance.

关 键 词:钙钛矿太阳能电池 梯度掺杂 CsSnI_(3) 无空穴传输层 SCAPS-1D 

分 类 号:TB195.6[一般工业技术]

 

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