p-(001)NiO/n-(0001)ZnO Heterostructures based Ultraviolet Photodetectors

Amandeep Kaur, Bhabani Prasad Sahoo, Ajoy Biswas, Subhabrata Dhar
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Abstract

We investigate the potential of epitaxial (001)p-NiO/(0001)n-ZnO heterostructures grown on (0001)sapphire substrates by pulsed laser deposition technique for ultraviolet photodetector application. Our study reveals that in the self-powered mode, these devices can serve as effective photodetectors for the UV-A band (320-400 nm) with response time as short as 400 microseconds. Peak responsivity as high as 5mA/W at zero bias condition have been achieved. These devices also show a very high level of stability under repeated on/off illumination cycles over a long period of time. Furthermore, we find that the response time of these detectors can be controlled from several microseconds to thousands of seconds by applying bias both in the forward and the reverse directions. This persistent photoconductivity effect has been explained in terms of the field induced change in the capture barrier height associated with certain traps located at the junction.
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基于 p-(001)NiO/n-(0001)ZnO 异质结构的紫外线光电探测器
我们研究了通过脉冲激光沉积技术在(0001)蓝宝石衬底上生长的外延(001)p-NiO/(0001)n-ZnO 异质结构在紫外线光电探测器应用方面的潜力。我们的研究表明,在自供电模式下,这些器件可作为紫外线-A 波段(320-400 纳米)的有效光电探测器,响应时间短至 400 微秒。此外,我们还发现,这些探测器的响应时间可以通过正向和反向偏压控制在几微秒到几千秒之间。这种持续的光电导效应是由位于结点的某些陷阱引起的场诱导俘获势垒高度变化所解释的。
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