Nanoporous Silicon Thin Film-Based Hydrogen Sensor Using Metal-Assisted Chemical Etching with Annealed Palladium Nanoparticles
2020
Kim, Hyeonggyun | Yun, Jeonghoon | Gao, Min | Kim, Hyeok | Cho, Minkyu | Park, Inkyu
This article reports a nanoporous silicon (Si) thin-film-based high-performance and low-power hydrogen (H₂) sensor fabricated by metal-assisted chemical etching (MaCE). The nanoporous Si thin film treated with Pd-based MaCE showed improvement over a flat Si thin film sensor in H₂ response (ΔI/I₀ = 4.36% → 12.4% for 0.1% H₂). Furthermore, it was verified that the combination of thermal annealing of Pd and subsequent MaCE on the Si thin film synergistically enhances the H₂ sensitivity of the sensor by 65 times as compared to the flat Si thin film sensor (ΔI/I₀ = 4.36% → 285% for 0.1% H₂). This sensor also showed a very low operating power of 1.62 μW. After the thermal treatment, densely packed Pd nanoparticles agglomerate due to dewetting, which results in a higher surface-to-volume ratio by well-defined etched holes, leading to an increase in sensor response.
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