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Hans Journal of Nanotechnology 2022

取向对铁酸铋薄膜漏电机制和光伏性能的影响
Effect of Orientation on Leakage Mechanism and Photovoltaic Properties in Bismuth Ferrite Thin Films

DOI: 10.12677/NAT.2022.122006, PP. 41-48

于笑妍, 魏一, 李昊阳, 张萌, 李奕瑄, 高洁, 张宪贵, 宋建民, 曾浩宇

Keywords: 铁酸铋，异质结，偏轴磁控溅射法，漏电流机制，铁电光伏效应
Bismuth Ferrite, Heterostructure, Off Axis Magnetron Sputtering, Leakage Current Mechanism, Ferroelectric Photovoltaic Effect

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Abstract:

本文通过偏轴磁控溅射法，以不同取向钛酸锶SrTiO₃ (STO)单晶基片为衬底，镧锶钴氧La_0.5Sr_0.5CoO₃ (LSCO)为底电极，铁酸铋BiFeO₃ (BFO)为铁电介质，构架了Pt/BFO/LSCO/STO异质结电容器。XRD结果显示不同取向的BFO薄膜均为外延结构。研究了不同取向Pt/BFO/LSCO异质结的漏电机制和光伏性能。J-V数据拟合表明，Pt/BFO/LSCO漏电流大小依赖于BFO薄膜取向，满足(001)J > (110)J > (111)J规律。不同取向Pt/BFO/LSCO异质结的导电机制均为：低电场欧姆导电和高电场肖特基导电。通过铁电光伏系统对Pt/BFO/LSCO异质结的光伏性能进行了测量，结果表明开路电压V_OC和短路电流J_SC强烈依赖于BFO薄膜取向，(111)取向最大、(110)取向次之、(001)取向最小。
The Pt/BFO/LSCO/STO heterojunction capacitor were fabricated on three oriented SrTiO₃ (STO) single crystal substrates by off-axis RF magnetron sputtering, La_0.5Sr_0.5CoO₃ (LSCO) as bottle electrode and BiFeO₃ (BFO) film as ferroelectric medium. XRD results show that BFO films with different orientations are epitaxial. The leakage mechanism and photovoltaic performance of Pt/BFO/LSCO heterostructure are studied. The fitting of J-V data shows that the leakage current of Pt/BFO/LSCO depends on the orientation of BFO films, which satisfies the rule of (001)J > (110)J > (111)J. The conduction mechanisms of Pt/BFO/LSCO heterostructure with different orientations are: low electric field ohmic conduction and high electric field Schottky conduction. The photovoltaic characteristics of Pt/BFO/LSCO heterostructureare characterized by ferroelectric photovoltaic system. The results show that the V_oc and J_sc

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取向对铁酸铋薄膜漏电机制和光伏性能的影响 Effect of Orientation on Leakage Mechanism and Photovoltaic Properties in Bismuth Ferrite Thin Films

取向对铁酸铋薄膜漏电机制和光伏性能的影响
Effect of Orientation on Leakage Mechanism and Photovoltaic Properties in Bismuth Ferrite Thin Films