Gas sensing performance of sprayed NiO thin films toward NO2 gas

Nickel oxide thin films were obtained by a cost-effective chemical spray pyrolysis approach on glass substrates using nickel chloride as starting precursor with different deposition times. The X-ray diffraction investigation indicated that the obtained films were polycrystalline cubic structure with...

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Bibliographic Details
Published in:Journal of alloys and compounds 2021-12, Vol.885, p.160908, Article 160908
Main Authors: Gomaa, M.M., Sayed, M.H., Patil, V.L., Boshta, M., Patil, P.S.
Format: Article
Language:English
Subjects:
Chemical spray pyrolysis
Deposition
Energy gap
Gas sensors
Glass substrates
Materials selection
Morphology
Nickel oxide
Nickel oxides
Nitrogen dioxide
NO2 gas sensor
Operating temperature
Preferred orientation
Selectivity
Sensitivity
Spray pyrolysis
Thin films
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Summary:Nickel oxide thin films were obtained by a cost-effective chemical spray pyrolysis approach on glass substrates using nickel chloride as starting precursor with different deposition times. The X-ray diffraction investigation indicated that the obtained films were polycrystalline cubic structure with preferred orientation along (111) plane. Scanning electron microscopy images for sprayed NiO layers at deposition time of 5 and 10 min exhibit a porous structure with randomly oriented honeycomb like morphology. The optical direct band-gap energy Eg of sprayed NiO films was around 3.4–3.5 eV for all deposited samples and optical transmittance decreases with increasing the deposition time. Gas sensing performance was tested for the detection of nitrogen dioxide (NO2) at different operating temperatures and NO2 concentrations. It was found that the sprayed NiO thin film at deposition time of 5 min shows the maximum sensitivity of 57.3% for 20 ppm NO2 at 200 °C as operating temperature with good stability and selectivity. This study suggests that the sprayed NiO thin film is a good candidate material for NO2 detection at a relatively low operating temperature. •NiO thin films were successfully fabricated by chemical spray pyrolysis with different thicknesses.•The structural, morphological, optical, and sensing measurements of NiO films were studied.•Operating temperature of NiO gas sensors for NO2 detection was optimized at 200 °C.•Gas sensor based on NiO thin film with the lowest thickness shows the best sensing performance toward NO2 gas.•NiO gas sensor shows maximum sensitivity of 57% for 20 ppm NO2 at 200 °C and the detection limit is 10 ppm gas concentration.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2021.160908