Tungsten oxide is shown to be a very promising material for the fabrication of highly selective ammonia sensors. Films of WO 3 were deposited onto a silicon substrate by means of the drop-coating method. Then, the films were annealed in dry air at two different temperatures (300 and 400ЊC). X-ray photoelectron spectroscopy was used to investigate the composition of the films. Tungsten appeared both in WO 2 and WO 3 oxidation states, but the second state was clearly dominant. Scanning electron microscopy results showed that the oxide was amorphous or nanocrystalline. The WO 3 -based devices were sensitive to ammonia vapors when operated between 250 and 350ЊC. The optimal operating temperature for the highest sensitivity to ammonia was 300ЊC. Furthermore, when the devices were operated at 300ЊC, their sensitivity to other reducing species such as ethanol, methane, toluene, and water vapor was significantly lower, and this resulted in a high selectivity to ammonia. A model for the sensing mechanisms of the fabricated sensors is proposed.
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