Au nanoparticle-modified ZnO/SnO2 heterojunction nanocomposites for highly sensitive detection of NH3

The development of resistive NH 3 gas sensor detection technology has important practical significance for environmental protection and human health monitoring. We prepared a novel gas-sensitive nanocomposite of ZnO/SnO 2 heterojunction modified by Au nanoparticles by simple synthesis methods including hydrothermal reduction, solvothermal, and wet impregnation. Then, we analyzed the crystallinity, morphology, and elemental composition of the prepared materials by different characterization means, which proved the successful preparation of Au-ZnO/SnO 2 materials. We tested the response performance of the prepared sensor to NH 3 , and the Au-ZnO/SnO 2 -2 (Zn/Sn = 0.3wt%) sensor has the best performance. Its response value to 100 ppm NH3 can be up to 11 at the optimal temperature 240 °C, which is about 8 times better performance than the unmodified SnO 2 sensor. In addition, it has fast response and recovery performance (1 min/13 min), good repeatability, long-term stability and selectivity. Finally, we analyzed the high sensing properties of Au-ZnO/SnO 2 -2 materials, which can be attributed to the construction of heterojunction promoting electron transfer and the successful modification of Au nanoparticles increasing the adsorption site.