Ultra-Robust Deep-UV Photovoltaic Detector Based on Graphene/(AlGa)₂O₃/GaN with High-Performance in Temperature Fluctuations
2019
Zhang, Dan | Lin, Wanmin | Liu, Sixian | Zhu, Yanming | Lin, Richeng | Zheng, Wei | Huang, Feng
A strategy of adopting Ga₂O₃ alloyed with Al element to reduce the oxygen vacancy defect density and enhance the interface barrier height of Ga₂O₃ heterojunction is proposed to fabricate deep-UV photovoltaic detectors with high thermal stability, high photoresponsivity, and fast response speed. Here, a graphene/(AlGa)₂O₃/GaN device with a photoresponsivity of ∼20 mA/W, a rise time of ∼2 μs, and a decay time of ∼10 ms is presented at 0 V bias. At the working temperature of 453 K, the device still exhibits a photo-to-dark current ratio (PDCR) of ∼1.8 × 10³, which is 1–2 orders of magnitude higher than that of the reported high-temperature deep-UV film detectors. By comparing the formation energy of oxygen vacancy defects and the interface barrier height of the heterojunction at different temperatures in graphene/Ga₂O₃/GaN and graphene/(AlGa)₂O₃/GaN systems, the strategy of synthesizing (AlGa)₂O₃ ternary composite alloy is proved to be reliable for fabricating high-performance deep-UV photovoltaic detectors. The method proposed in this paper can provide reference for the preparation of deep-UV photovoltaic detectors with high photoresponsivity and thermal stability in the future.
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