Zirconium hydroxide has been investigated as a candidate nitrogen dioxide dielectric sensor using impedance spectroscopy analysis. Significant changes in electronic and physical properties down to our dosage minimum of 2 ppm h have been observed. Using disc-shaped pressed pellets of Zr(OH) in parallel plate geometry, we observe a maximum signal shift of 35% at 2 ppm h dosage, which increases six orders of magnitude as the dosage reaches 1000 ppm h. Changes in impedance correlate with nitrogen and oxygen atomic ratio increases observed via X-ray photoelectron spectroscopy (XPS) at higher NO dosages. In contrast to the sharp frequency-dependent features and net impedance decreases during NO exposures, Zr(OH) exhibits a large and broad impedance increase after exposure to humid air (water vapor). The results indicate that Zr(OH) could be used as a selective low-cost impedance-based NO detector by applying frequency-dependent impedance fingerprinting.
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