NH[sub 3] Interaction with Catalytically Modified Nano-WO[sub 3] Powders for Gas Sensing Applications

Nanocrystalline powders of pure and with catalytic additives such as copper and vanadium, for ammonia gas detection are analyzed in detail. Material was annealed at two different temperatures (400 and 700°C) and catalytic additives were introduced in two different concentrations (0.2 and 2%) in order to study the gas sensor performances of these -based materials. Crystalline structure characterization shows that a mixture of triclinic and monoclinic structure was present in the materials analyzed. Additive characterization reveals that catalytic metals were located as cations in the matrix lattice. Thick-film gas sensors based on pure show an abnormal sensor response, which is attributed to a complex process originated by the oxidation of ammonia to NO. On the other hand, catalyzed -based gas sensors show a more direct and simple sensor response. Interaction of ammonia with was studied by diffuse reflectance infrared spectroscopy. Only pure presented a W=O overtone band decrease and some nitrosil bands. In this case, would react with the surface oxygen of terminal W=O bonds and would lead to the formation of NO. Catalyzed avoided this reaction and so the unselective catalytic oxidation of improving sensor response. Influence of introduced additives on ammonia oxidation and thus on sensor response is discussed. © 2003 The Electrochemical Society. All rights reserved.