Abstract
In this paper, a hierarchical structure of graphite carbon nitride (g-C3N4) modified ZnO (g-C3N4/ZnO) was synthesized using a simple precipitation-calcination method. Through this method, g-C3N4 nanosheets with a controlled content were successfully decorated on the petals of flower-like ZnO. Various techniques were used to confirm the successful formation of the g-C3N4/ZnO hierarchical structure. The methane (CH4) sensing properties of g-C3N4/ZnO sensor were investigated. The result exhibited that after decorating ZnO with g-C3N4, the CH4 sensing performances of the fabricated sensor were remarkably improved. At the optimum operating temperature of 320 °C, the response of the sensor fabricated with CNZ-3 (the sample with an optimum content of g-C3N4) towards 1000 ppm CH4 was as high as 11.9 (Ra/Rg), which was about 2.2 times higher than that of the pure ZnO sensor (5.3). In addition, the CNZ-3 sensor also exhibited a fast response/recovery speed (15/28 s) and outstanding long-term stability. The enhancing CH4 sensing mechanism may be contributed to enlarged surface area, pore structure, and g-C3N4-ZnO n-n junction.
Highlights
Methane (CH4), the main constituent of natural gas, has been widely used for cooking, domestic heating, and industrial applications
The (CH4) sensing performance of the prepared g-C3N4/ZnO was investigated and the results indicated that after decorating with g-C3N4, the ZnO
The compositions of the sample were first analyzed by X-ray diffraction (XRD)
Summary
Methane (CH4), the main constituent of natural gas, has been widely used for cooking, domestic heating, and industrial applications. Nseanosmoartserdiaelsc2r0e1a9s,e9d, xcFoOrRrePsEpEoRnRdEiVnIgElWy. While, as compared with the pure ZnO sensor, the CNZ-3 s9enofso17r gave clear and regular response steps to different concentrations of CH4 (insets in Figure 9a,c), revealing ritesvbeaeltitnegr aibtsilibtyettoerreasbpilointyd ttoo CreHsp4o.
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