INFLUENCE OF CATALYTIC REACTIVITY ON THE RESPONSE OF METAL-OXIDE-SILICON CARBIDE SENSOR TO EXHAUST GASES

Abstract Catalytic metal insulator silicon carbide, MISiC, Schottky diodes are promising devices for on board exhaust diagnosis in cars. These sensors show a direct or indirect sensitivity to gases like H2, CO, HC (hydrocarbons) and O2. The catalytic reactivity of the sensor will effect the gas sensing conditions. In some situations knowledge about the reactivity of the catalytic surface may give more information about the exhaust gas composition. For instance, the sensor signal normally moves to a lower voltage in an ambient containing H2 and HC, however, under certain conditions when exposed to rich gas mixtures, the HC response is opposite the one for H2. Measurements performed by the MISiC sensors on simulated exhaust gas mixtures, either rich or lean, are shown here. Some fundamental studies of the HC response have been performed. Reaction limitation conditions are suggested as an explanation for the response of HC opposite the one of H2.