具有热氧化β-GaO层的高性能纳米多孔氮化镓金属-绝缘体-半导体紫外光探测器。
High-performance nanoporous-GaN metal-insulator-semiconductor ultraviolet photodetectors with a thermal oxidized β-GaO layer.
作者信息
Meng Ruilin, Ji Xiaoli, Lou Zheng, Yang Jiankun, Zhang Yonghui, Zhang Zihui, Bi Wengang, Wang Junxi, Wei Tongbo
出版信息
Opt Lett. 2019 May 1;44(9):2197-2200. doi: 10.1364/OL.44.002197.
We report on the high-performance nanoporous (NP) GaN-based metal-insulator-semiconductor (MIS) ultraviolet (UV) photodetectors (PDs) with a thermal oxidized β-GaOinsulating layer. The devices show a high responsivity of 4.5×10 A/W and maximum external quantum efficiency of 1.55×10% at 360 nm under a 10 V applied bias, which are attributed to the trap-assisted tunneling induced internal gain mechanism. Correspondingly, a specific detectivity of 8.27×10 Jones and excellent optical switching repeatability are also observed in our fabricated PDs. The NP-GaN/β-GaO MIS UV PD may act as an excellent candidate for the application in UV photodetection due to the high performance and simple fabrication process.
我们报道了基于具有热氧化β-Ga₂O₃绝缘层的高性能纳米多孔(NP)氮化镓(GaN)的金属-绝缘体-半导体(MIS)紫外(UV)光电探测器(PDs)。在10V施加偏压下,这些器件在360nm处显示出4.5×10⁻²A/W的高响应度和1.55×10³%的最大外量子效率,这归因于陷阱辅助隧穿诱导的内增益机制。相应地,在我们制备的光电探测器中还观察到8.27×10¹²Jones的比探测率和优异的光开关重复性。由于高性能和简单的制造工艺,NP-GaN/β-Ga₂O₃ MIS紫外光电探测器可能成为紫外光探测应用的优秀候选者。
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