Enhancing Hydrogen Sulfide Gas Detection: Tailoring ZnO Films Through a Novel Sol-Gel Approach with Ultra-Sonication

In this study, nano-sized Zinc Oxide (ZnO) particles were synthesized using a novel sol-gel process with Zn(NO3)2 solutions, specifically tailored for the development of a highly efficient Hydrogen Sulphide (H2S) gas sensing element. The impact of ultra-sonication on the properties crucial for H2S detection was systematically investigated. The resulting ZnO materials exhibited a well-defined crystalline structure along (100), (002), (101), and (102) planes, confirming the formation of the hexagonal wurtzite phase of ZnO. Significantly, an increase in sonication treatment time led to a reduction in particle size. The gas sensing properties for H2S were meticulously analyzed in relation to the varying sizes of ZnO films. Remarkably, the ZnO film fabricated with a 30-minute ultra-sonication treatment demonstrated the highest response to H2S gas at 423 K. The ZnO-thick films exhibited notable sensitivity, coupled with rapid reactivity and recovery times upon exposure to H2S gas. Importantly, our findings establish a direct correlation between the sensitivity of the ZnO sensor IP: 203 8 109 20 On: Thu 16 May 2024 06:24:53 and the particle size.