4.7 Article

Novel Ternary Nitride Thin Film-Based Self-Powered, Broad Spectral Responsive Photodetector with a High Detectivity for Weak Light

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ADVANCED MATERIALS TECHNOLOGIES
卷 8, 期 1, 页码 -

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WILEY
DOI: 10.1002/admt.202200645

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autonomous farming; prototype irrigation system; scanning Kelvin probe; self-powered photodetector; surface photovoltage; TiZnN films

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This paper demonstrates the optoelectronic properties of ternary metal-zinc nitride thin films through experiments. The films show excellent performance on p-Si substrates. These properties enable the development of self-powered, wide-spectral response, and fast photodetectors for next-generation optoelectronic devices. The devices are also insensitive to humidity and ambiance, and have hydrophobic and highly stable active layers.
Self-powered, wide-spectral response, fast, and high-sensitivity photodetectors are essential for developing next-generation optoelectronic devices. In this work, the predicted optoelectronic properties of the ternary metal-zinc (Zn)-nitride (N) thin films are experimentally demonstrated. A novel phase of the Titanium (Ti)-Zn-N system (dominantly TiZnN2 film of approximate to 235 nm thickness) is developed on the p-Si substrate, which shows excellent optoelectronic properties. The Indium Tin Oxide (ITO)/TiZnN2/p-type Si (p-Si) photodetector of area approximate to 4 mm(2) exhibits an impressive responsivity of 1.22 x 10(-4) A W-1 at 0 V and 40 mA W-1 at -4 V, a specific detectivity up to 1.16 x 10(9) Jones at 0 V, and a response speed of 1.9 ms at zero external bias (i.e., self-powered mode). Benefiting from the broad-band absorption of the film and p-Si combination, the detection range is observed from the ultraviolet to near-infrared (300-1150 nm). Simultaneous operation of self-powered photo-triggered drip irrigation ON and street light OFF in the early morning and vice-versa in the evening is demonstrated for autonomous farming. The device is insensitive to humidity and ambiance, and generates a photocurrent with light intensity as low as 5 mW cm(-2). The active layer is hydrophobic and highly stable, and the fabrication is cost-effective.

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