Issue 33, 2017

Sensing of NO2 with zirconium hydroxide via frequency-dependent electrical impedance spectroscopy

Abstract

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)4 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 NO2 dosages. In contrast to the sharp frequency-dependent features and net impedance decreases during NO2 exposures, Zr(OH)4 exhibits a large and broad impedance increase after exposure to humid air (water vapor). The results indicate that Zr(OH)4 could be used as a selective low-cost impedance-based NO2 detector by applying frequency-dependent impedance fingerprinting.

Graphical abstract: Sensing of NO2 with zirconium hydroxide via frequency-dependent electrical impedance spectroscopy

Supplementary files

Article information

Article type
Communication
Submitted
04 Jun 2017
Accepted
26 Jul 2017
First published
27 Jul 2017

Dalton Trans., 2017,46, 10791-10797

Sensing of NO2 with zirconium hydroxide via frequency-dependent electrical impedance spectroscopy

C. R. Harris, J. R. Soliz, A. D. Klevitch, M. J. Bartz, J. A. Rossin, A. W. Fountain, A. J. Hauser and G. W. Peterson, Dalton Trans., 2017, 46, 10791 DOI: 10.1039/C7DT02034A

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