%0 Journal Article
%T 乙腈添加剂对钙钛矿太阳能电池空穴传输界面的改善研究<br>Study on the Interfacial Improvement of Hole-Transport Layer in Perovskite Solar Cells via Acetonitrile Additive
%A 张鹏
%A 蔡静萱
%A 陈翌庆
%J Hans Journal of Nanotechnology
%P 27-35
%@ 2161-0878
%D 2021
%I Hans Publishing
%R 10.12677/NAT.2021.113004
%X <div style=\"text-align:justify;\">
	<span style=\"font-size:14px;\">钙钛矿太阳能电池凭借其高光电转化效率和易制备、低成本的优势，在目前已成为最具前途的光伏器件之一。研究表明钙钛矿层的界面修饰可有效减少界面中存在的陷阱态，并降低载流子输运势垒。本研究介绍了一种改善空穴层和钙钛矿界面的简易有效方法，即在空穴层前驱液中加入少量乙腈，少量乙腈可以腐蚀光功能层的表面使其与空穴层形成互扩散结构，进而改善两者之间的载流子传输界面。这种方法改善了空穴传输界面的点接触，减少了位错、悬挂键等复合中心，减少了缺陷能级，进而减少载流子的传输损耗以提高光电转化效率。最优处理后的电池，最优光电转化效率可达17.9%，提高了11.4%。<br />
Due to the high power conversion efficiency, easy preparation process and lowcost, organometal halide perovskite solar cells have developed into one of the most promising photovoltaic devices. It has been found that it is effective to reduce the defect state located in perovskite film via interfacial modification of the perovskite layer. In this paper, ACN additive with low concentration was intro-duced into Spiro-OMeTAD precursor to modify the perovskite interfaces. ACN additive can dissolve impurities in the surface of the perovskite layer, leading to the formation of an inter-diffusion structure between perovskite and Spiro-OMeTAD layers. Consequently, the method can improve the electrical contact of hole transport layer and decrease recombination losses originated from dislo-cation defect or dangling bond. Consequently, the corresponding best performance device generates conversion efficiency of 17.9%, 11.4% higher than that of the pristine device.</span> 
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%K MAPbI3太阳能电池，乙腈，空穴传输界面，界面钝化<br>MAPbI3 Perovskite Solar Cells
%K Acetonitrile
%K Hole Transport Interface
%K Interfacal Passivation
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=43536