Effect of p- or n-Type Semiconductor on CO Sensing Performance of Catalytic Combustion-Type CO Gas Sensor with CeO2-ZrO2-ZnO Based Catalyst

Abstract

Abstract Novel catalytic combustion-type CO gas sensors were successfully devised by applying precious metal-free catalysts composed of the p- or n-type semiconducting Ln2CuO4-loaded CeO2-ZrO2-ZnO (Ln2CuO4/CZZn; Ln = La, Nd, and Sm). Complete CO oxidation using the p-type semiconducting La2CuO4/CZZn catalyst occurred at 350 °C, while the n-type semiconducting Nd2CuO4/CZZn and Sm2CuO4/CZZn catalysts completely oxidized CO gas at 220 °C and 200 °C, respectively. All the fabricated sensors exhibited quantitative detection of CO gas over 250 °C. The La2CuO4/CZZn catalyst has the smallest heat capacity, which dramatically increases the Pt coil temperature compared with the other catalysts, resulting in the highest sensor signal. However, the sensor applying Nd2CuO4/CZZn and Sm2CuO4/CZZn catalysts exhibited faster response time to CO gas than the sensor employing La2CuO4/CZZn catalyst due to their superior CO oxidation activity.