The results of theoretical and experimental studies into the effect of water vapor on the electrical conductance of a gas sensor and the sensor response to hydrogen action are discussed. A relation describing the dependence of electrical conductance G0 on absolute humidity in the pure air is derived using a hypothesis of the presence of space-charge regions depleted of electrons between the SnO 2 grains in a polycrystalline tin dioxide film. Due to dissociative chemisorption of water molecules, the energy-band bending at the SnO 2 grain interfaces decreases and the oxygen-vacancy concentration in the grains increases, resuling in an increase in G0. An equation for the sensor response to hydrogen action is derived (the G1/G0, ratio, where G1 is the sensor conductance in a gas mixture containing molecular hydrogen). The expression describes the dependence of G1/G0 on the hydrogen concentration \({\rm n}_{{\rm H}_2 }\) in the interval 50–6·103 ppm, band bending at the SnO 2 grain interface, and sensor temperature. The dependences of the sensor conductance, highest possible conductance, and energy-band bending on temperature and absolute humidity resulting from processing of the experimental data are in good agreement with the theoretical predictions.
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Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 8, pp. 50–56, August, 2008.
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Gaman, V.I., Anisimov, O.V., Maksimova, N.K. et al. The effect of water vapor on the electrical properties and sensitivity of thin-film gas sensors based on tin dioxide. Russ Phys J 51, 831–839 (2008). https://doi.org/10.1007/s11182-009-9116-8
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DOI: https://doi.org/10.1007/s11182-009-9116-8