Abstract
Mixed-potential type YSZ-based sensor utilizing In2O3 as sensing electrode (SE) was fabricated and examined for detection of NO2 at 700°C. The hierarchical In2O3 oxide material was synthesized via a facile hydrothermal process, and In2O3 sintered at different temperatures were characterized using X-ray diffraction (XRD) and field-emission scanning electron microscopy (FESEM). The present study mainly focused on the effect of sintering temperature of SE materials (800°C, 1000°C, 1200°C) on NO2 sensing characteristics. As a result, the sensor attached with In2O3-SE calcined at 1000°C exhibited the largest sensitivity to NO2, which the response to 100ppm NO2 was as large as126mV and excellent long-term stability for 30 days tested at 700°C. It is noteworthy that the NO2 sensitivities for present device showed a small influence by the change of relative humidity at 700°C. Additionally, the present devices also displayed good repeatability, the excellent sensitivity and relatively good selectivity in conjunction with various interfering gases before and after 30 days high-temperature-aging of 700°C. It was speculated that the largest sensing performance for the sensor attached with In2O3-SE sintered at 1000°C was contributed to the special micro-structure of the SE and the highest electrochemical catalytic activity for cathodic reaction of NO2 at the triple phase boundary (TPB).
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