CuO nanoparticles-decorated femtosecond laser-irradiated WS₂–WO₃ heterojunctions to realize selective H₂S gas sensor

Femtosecond (FS) laser irradiation is an easy and highly effective strategy for enhancing the sensing properties of resistive gas sensors. In this study, we applied this technique to WS₂ nanosheets (NSs) to generate WS₂–WO₃ heterojunctions. Subsequently, they were decorated with CuO nanoparticles (NPs). Different characterization techniques demonstrated the formation of CuO-decorated WS₂–WO₃ heterojunction NSs with the desired morphology, phase, and chemical composition. Based on H₂S gas-sensing studies, while non-irradiated WS₂ sensors exhibited poor sensing performance, a combination of FS laser irradiation and CuO decoration led to significant performance improvement for H₂S sensing in terms of response and selectivity. Enhanced performance is related to the formation of plenty of WS₂–WO₃ heterojunctions, oxygen vacancies, and the conversion of CuO to CuS with high metallic conductivity. We believe that the strategy used in this work can pave the way for the realization of low-temperature, sensitive, and selective H₂S gas sensors.