With increasingly serious environmental problems caused by the improvement in people’s living standards, the number of cars has increased sharply in recent years, which directly leads to the continuous increase in the concentration of NO
2 in the air. NO
2 is a common toxic and irritant gas, which is harmful to both the human body and the environment. Therefore, this research focuses on NO
2 detection and is committed to developing high-performance, low detection limit NO
2 sensors. In this study, flower-like Au-loaded In
2O
3 was successfully fabricated using the hydrothermal method and the wet impregnation method. The morphological features and chemical compositions of the as-prepared samples were characterized using SEM, TEM, XRD and XPS. A variety of sensors were fabricated and the gas-sensing properties of sensors were investigated. The results indicate that the sensor based on 0.5 mol% Au/In
2O
3 shows a response value of 1624 to 1 ppm NO
2 at 100 °C, which is 14 times that based on pure In
2O
3. Meanwhile, the detection limit of the sensor based on 0.5 mol% Au/In
2O
3 for NO
2 is 10 ppb, and the response value is 10.4. In addition, the sensor based on 0.5 mol% Au/In
2O
3 also has high selectivity to NO
2 among CO, CO
2, H
2, CH
4, NH
3, SO
2 and H
2S. Finally, the sensitization mechanism of Au/In
2O
3 was discussed, and the reasons for improving the performance of the sensor were analyzed. The above results and analysis demonstrate that the gas-sensing attributes of the sensor based on 0.5 mol% Au/In
2O
3 to NO
2 improved remarkably; at the same time, it has been proved that the composite material has extensive potential in practical applications.
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