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High Performance of Zero-Power-Consumption MOCVD-Grown β-Ga 2 O 3 -Based Solar-Blind Photodetectors with Ultralow Dark Current and High-Temperature Functionalities.

Hardhyan SheoranShi FangFangzhou LiangZhe HuangShuchi KaushikNethala ManikanthababuXiaolong ZhaoHaiding SunRajendra SinghShibing Long
Published in: ACS applied materials & interfaces (2022)
In this article, we report on high-performance deep ultraviolet photodetectors (DUV PDs) fabricated on metal-organic chemical vapor deposition (MOCVD)-grown β-Ga 2 O 3 heteroepitaxy that exhibit stable operation up to 125 °C. The fabricated DUV PDs exhibit self-powered behavior with an ultralow dark current of 1.75 fA and a very high photo-to-dark-current ratio (PDCR) of the order of 10 5 at zero bias and >10 5 at higher biases of 5 and 10 V, which remains almost constant up to 125 °C. The high responsivity of 6.62 A/W is obtained at 10 V at room temperature (RT) under the weak illumination of 42.86 μW/cm 2 of 260 nm wavelength. The detector shows very low noise equivalent power (NEP) of 5.74 × 10 -14 and 1.03 × 10 -16 W/Hz 1/2 and ultrahigh detectivity of 5.51 × 10 11 and 3.10 × 10 14 Jones at 0 and 5 V, respectively, which shows its high detection sensitivity. The RT UV-visible (260:500 nm) rejection ratios of the order of 10 3 at zero bias and 10 5 at 5 V are obtained. These results demonstrate the potential of Ga 2 O 3 -based DUV PDs for solar-blind detection applications that require high-temperature robustness.
Keyphrases
  • high temperature
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