Mixed potential type YSZ-based NO2 sensors with efficient three-dimensional three-phase boundary processed by electrospinning

A mixed potential type yttria-stabilized zirconia (YSZ)-based NO2 sensor attached with NiO sensing electrode (SE) with efficient three-phase boundary (TPB) processed by electrospinning technology was fabricated. The effect of the structure and area of TPB on the gas sensing performance of the sensor was investigated systematically. The YSZ nanofiber array was directly deposited on YSZ substrate by electrospinning method to construct efficient three-dimensional TPB. The sensor (S30) based on YSZ substrate processed by electrospinning method with the flow rate of 1.5 mL/h for 15 min and NiO-SE exhibited the highest sensitivity (77.4 mV/decade) to 5-500 ppm NO2 at 510 degrees C, which was 2.6 times as the sensor (S00) with unprocessed YSZ substrate. The response value of S30 to 100 ppm NO2 could reach 109 mV at 510 degrees C, which increased about 51 mV comparing with S00. Moreover, the sensor (S30) also displays fast response and recovery rates, good repeatability, excellent selectivity, moisture resistance and long-term stability. The elevated NO2 sensing performance of the sensor is attributed to more active sites of electrochemical reactions by increased area of three-dimensional TPB.

Automated summary

The sensor fabricated with electrospinning technology showed high sensitivity to NO2, fast response and recovery rates, good repeatability, excellent selectivity, moisture resistance, and long-term stability. The enhanced NO2 sensing performance is attributed to the increased area of three-dimensional TPB providing more active sites for electrochemical reactions.