16PB1500, Integrated management system for harmful environment based on intelligent wireless multi-sensor module,
Lee Hyung-Kun
Abstract
A CO2 gas sensor based on a metal oxide semiconductor was prepared using spinel-type Co3O4 as a sensing material. The sensing properties of the prepared Co3O4 were tested at various concentrations (500??10000혻ppm) of CO2 gas at the operating temperatures of 150 and 200혻°C that are relatively low temperatures compared to those of the conventional semiconductor gas sensors. We confirmed metal carbonate species created by the reaction between Co3O4 and CO2 through X-ray photoelectron spectroscopy analysis before and after exposure to CO2. In addition, barium carbonate (BaCO3) was doped into Co3O4 in order to improve the stability of the sensor response as well as the performance of sensor to CO2 under different humid conditions.
KSP Keywords
Barium carbonate, Carbon dioxide gas sensor, Carbonate species, Humid conditions, Low temperature(LT), Metal carbonates, Metal-oxide(MOX), Semiconductor gas sensor, Sensing material, Sensor based, Sensor response
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