Ion Migration Magnified Photoresponse in Perovskite Devices

F. Khorramshahi, A. Takshi
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Abstract

Here, we have studied the effect of ion migration on the photoresponse of the photovoltaic perovskite devices by changing the contact material behavior in a lateral structure. Two devices were fabricated by making perovskite micro-channel using capillary motion. Indium tin oxide (ITO) Schottky contact and copper contact with a linear characteristic were used as the electrode to form two separate lateral structures with the perovskite material. The devices were characterized by scanning electron microscope (SEM) imaging and energy dispersive X-Ray spectroscopy (EDS). The electrical and optical properties of the samples were measured by the Potentiostat. In both devices, the photocurrent increased with time. A non-capacitive currentvoltage hysteresis was observed which was independent of the contact behavior with the perovskite material. However, it depended on the biasing history and lighting condition. The nonsteady state part of the photoresponse was significantly changed over time. The magnified photoresponse was attributed to the light-induced ion drift at the perovskite/contact interfaces which lead to a bandgap modification. This study may help in better understanding of the nature of the ion migration in perovskite solar cells.
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钙钛矿器件中离子迁移放大光响应
本文通过改变横向结构中接触材料的行为,研究了离子迁移对光伏钙钛矿器件光响应的影响。利用毛细管运动制备钙钛矿微通道,制备了两种器件。采用具有线性特性的氧化铟锡(ITO)肖特基触点和铜触点作为电极,与钙钛矿材料形成两个独立的横向结构。采用扫描电子显微镜(SEM)和x射线能谱仪(EDS)对器件进行了表征。用恒电位仪测量了样品的电学和光学特性。在这两种装置中,光电流随时间增加。观察到与钙钛矿材料的接触行为无关的非电容性电流电压滞后。然而,这取决于偏置历史和光照条件。随着时间的推移,光响应的非稳态部分发生了显著变化。放大的光响应归因于光诱导离子在钙钛矿/接触界面处漂移,导致带隙改变。该研究有助于更好地理解钙钛矿太阳能电池中离子迁移的性质。
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