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The Effect of Rare Earths on the Response of Photo UV-Activate ZnO Gas Sensors

nanoparticles ZnO
rare earth
resistive gas sensors
pollutant gases
UV-light irradiation
room temperature
Sayago, I.; Santos, J.P.; Sánchez-Vicente, C.
Sensors 2022, 22, 8150
https://doi.org/10.3390/s22218150

In this work, ZnO nanoparticle resistive sensors decorated with rare earths (REs; including Er, Tb, Eu and Dy) were used at room temperature to detect atmospheric pollutant gases (NO2, CO and CH4). Sensitive films were prepared by drop casting from aqueous solutions of ZnO nanoparticles (NPs) and trivalent RE ions. The sensors were continuously illuminated by ultraviolet light during the detection processes. The effect of photoactivation of the sensitive films was studied, as well as the influence of humidity on the response of the sensors to polluting gases. Comparative studies on the detection properties of the sensors showed how the presence of REs increased the response to the gases detected. Low concentrations of pollutant gases (50 ppb NO2, 1 ppm CO and 3 ppm CH4) were detected at room temperature. The detection mechanisms were then discussed in terms of the possible oxidation-reduction (redox) reaction in both dry and humid air atmospheres.

The authors want to thank University of Extremadura for SEM and EDX analysis. The authors are grateful to the Spanish Ministry of Science, Innovation and Universities for supporting their research under the NEOGAS project (PID2019-107697RB-C43).

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