2021
DOI: 10.1016/j.mseb.2021.115233
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Chemoresistive gas-sensitive ZnO/Pt nanocomposites films applied by microplotter printing with increased sensitivity to benzene and hydrogen

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Cited by 32 publications
(10 citation statements)
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“…Upon studying the properties of oxide film for sensing benzene (4–100 ppm) at 300 °C ( Figure 7 a), it was determined that increase in concentration results in a consecutive decrease in film resistance compared to baseline and an increase in response (S) from 7 to 38%. The dependence of response (S) on benzene concentration ( Figure 7 b) is well described by the Freundlich equation: S = kCa , with k and a being proportional and exponential constants, which correspond to adsorption capacity and adsorption intensification, respectively [ 69 ]. In our case the equation is as follows: S = 7.47x 0.37 , with a determination coefficient (R 2 ) of 89%.…”
Section: Resultsmentioning
confidence: 99%
“…Upon studying the properties of oxide film for sensing benzene (4–100 ppm) at 300 °C ( Figure 7 a), it was determined that increase in concentration results in a consecutive decrease in film resistance compared to baseline and an increase in response (S) from 7 to 38%. The dependence of response (S) on benzene concentration ( Figure 7 b) is well described by the Freundlich equation: S = kCa , with k and a being proportional and exponential constants, which correspond to adsorption capacity and adsorption intensification, respectively [ 69 ]. In our case the equation is as follows: S = 7.47x 0.37 , with a determination coefficient (R 2 ) of 89%.…”
Section: Resultsmentioning
confidence: 99%
“…The chemoresistive responses were obtained using a special laboratory setup, a detailed description of which can be found in our earlier papers [43,48]. To measure the signal at different humidity levels, a specialized setup with a barboter was used, and the humidity of the gas mixture was monitored using a digital flow-through hygrometer "Eksis IVTM-7 K" (Eksis, Zelenograd, Russia).…”
Section: Instrumentationmentioning
confidence: 99%
“…The response is saturated at T = 300-350 °C that fully corresponds to conventional operating temperatures known for ZnO chemiresistors [5], the UV effect is almost negligible. Due to the fine morphology of the grown ZnO nanostructures, the response is higher than the observed one in printed ZnO layers doped with Pt [51]. We have looked at how UV radiation influences the ZnO nanostructures grown in local chip areas at various deposition times.…”
Section: Gas-sensing Properties Of Zno Nanostructured Layer Under Uv Illuminationmentioning
confidence: 99%