Download This PaperThe Mos2/Zno P-N Heterostructure Arrays for Ultrasensitive Ppb-Level Self-Supporting No2 Gas Sensors Under Uv Irradiation
24 Pages Posted: 16 Dec 2024
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The Mos2/Zno P-N Heterostructure Arrays for Ultrasensitive Ppb-Level Self-Supporting No2 Gas Sensors Under Uv Irradiation
The Mos2/Zno P-N Heterostructure Arrays for Ultrasensitive Ppb-Level Self-Supporting No2 Gas Sensors Under Uv Irradiation
Abstract
Light irradiation has emerged as a promising strategy to promote low operating temperatures of metal oxides semiconductors gas sensors. Traditional sensors have high operating temperatures, low electron-hole separation, and low gas response. Therefore, MoS2/ZnO heterostructure arrays were synthesized based on ITO conductive glass by hydrothermal and calcination methods as self-supporting sensors. Self-supporting sensors overcome limitations of traditional sensor fabrication. The successful preparation of self-supporting sensors is confirmed by a series of tests. The response of the gas sensor is determined as Rg/Ra or Ra/Rg (Ra and Rg indicate the resistance of the sensor in air and test gases). Regarding the gas-sensing performance, MoS2/ZnO-20 self-supporting sensor under UV irradiation exhibits ultrahigh response of 1088.43 to 10 ppm NO2 at 80 °C, which is 47 times higher than pure ZnO (23.21). Furthermore, operating temperature under UV irradiation is reduced by up to 60 °C. Additionally, MoS2/ZnO-20 self-supporting sensor demonstrates rapid response/recovery time (100/3 s), high selectivity, and ultralow theoretical detection limit (10.37 ppb). The p-n charge separation mechanism is employed to elucidate sensing mechanism of MoS2/ZnO self-supporting sensor for NO2 under UV irradiation. The efficient photogenerated carrier separation efficiency, large surface area, and the presence of multiple heterostructures are responsible for the high gas-sensing performance of MoS2/ZnO self-supporting sensor. Therefore, this study offers insights into the fabrication of ultrasensitive self-supporting sensors for low-temperature detection of NO2 under light irradiation.
Keywords: Self-supporting sensors, UV irradiation, ZnO, MoS2, P-n heterostructure
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