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Al-doped Nickel oxide (Al:NiO) nanostructured thin films, prepared by RF sputtering technique, were tested for NO2 gas detection. The films were deposited on alumina substrates with thicknesses ranging between 52 nm and 167 nm, while the at.% of Al was varied from 5.0% to 6.7%. The effect of the thickness on the morphological, structural and optical properties was investigated. Moreover, the sensing characteristics were examined and optimized with respect to film thickness and operating temperature (200 °C and 300 °C), at NO2 concentrations ranging from 200 ppb to 2500 ppb and in presence of a constant relative humidity (RH) of 40%. An ultimate response of 271% towards a NO2 concentration of 200 ppb at 200 °C was obtained, concluding that Al:NiO can be potentially used as a sensing material for this specific gas.

Highly sensitive and selective NO2 chemical sensors based on Al doped NiO thin films

Zappa D.;Comini E.;
2020-01-01

Abstract

Al-doped Nickel oxide (Al:NiO) nanostructured thin films, prepared by RF sputtering technique, were tested for NO2 gas detection. The films were deposited on alumina substrates with thicknesses ranging between 52 nm and 167 nm, while the at.% of Al was varied from 5.0% to 6.7%. The effect of the thickness on the morphological, structural and optical properties was investigated. Moreover, the sensing characteristics were examined and optimized with respect to film thickness and operating temperature (200 °C and 300 °C), at NO2 concentrations ranging from 200 ppb to 2500 ppb and in presence of a constant relative humidity (RH) of 40%. An ultimate response of 271% towards a NO2 concentration of 200 ppb at 200 °C was obtained, concluding that Al:NiO can be potentially used as a sensing material for this specific gas.
2020
2020
UE
PE3_5 Electronic properties of materials and transport
PE3_13 Nanophysics: nanoelectronics, nanophotonics, nanomagnetism
PE4_4 Surface science and nanostructures
PE3_7 Semiconductors, material growth, physical properties
PE4_8 Electrochemistry, electrodialysis, microfluidics, sensors
PE5_6 New materials: oxides, alloys, composite, organic-inorganic hybrid, nanoparticles
MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING
2-s2.0-85083815337
WOS:000535469600029
Esperti anonimi
Inglese
Internazionale
ELETTRONICO
115
105149
Gas sensing; Nickel oxide; NO; 2; p-type semiconductors; RF sputtering; Thin films
   FP7
8
info:eu-repo/semantics/article
262
Kampitakis, V.; Gagaoudakis, E.; Zappa, D.; Comini, E.; Aperathitis, E.; Kostopoulos, A.; Kiriakidis, G.; Binas, V.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11379/529695
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