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Please use this identifier to cite or link to this item: https://libeldoc.bsuir.by/handle/123456789/49665
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dc.contributor.authorGorokh, G.-
dc.contributor.authorZakhlebayeva, A.-
dc.contributor.authorTaratyn, I.-
dc.contributor.authorLozovenko, A.-
dc.contributor.authorZhylinski, V.-
dc.contributor.authorIji, M.-
dc.contributor.authorFedosenko, V.-
dc.contributor.authorTaleb, A.-
dc.coverage.spatialSwitzerlandru_RU
dc.date.accessioned2023-01-05T07:41:09Z-
dc.date.available2023-01-05T07:41:09Z-
dc.date.issued2022-
dc.identifier.citationA Micropowered Chemoresistive Sensor Based on a Thin Alumina Nanoporous Membrane and SnxBikMoyOz Nanocomposite / Gorokh G. [et al.] // Sensors. – 2022. – № 22(10). – P. 3640. – DOI: https://doi.org/10.3390/ s22103640.ru_RU
dc.identifier.urihttps://libeldoc.bsuir.by/handle/123456789/49665-
dc.description.abstractThis work presents and discusses the design of an efficient gas sensor, as well as the technological process of its fabrication. The optimal dimensions of the different sensor elements including their deformation were determined considering the geometric modeling and the calculated moduli of the elasticity and thermal conductivity coefficients. Multicomponent SnxBikMoyOz thin films were prepared by ionic layering on an anodic alumina membrane and were used as gas-sensitive layers in the sensor design. The resistance of the SnxBikMoyOz nanostructured film at temperatures up to 150 ◦C exceeded 106 Ohm but decreased to 104 Ohm at 550 ◦C in air. The sensitivity of the SnxBikMoyOz composite to concentrations of 5 and 40 ppm H2 at 250 ◦C (10 mW) was determined to be 0.22 and 0.40, respectively.ru_RU
dc.language.isoenru_RU
dc.publisherMDPIru_RU
dc.subjectпубликации ученыхru_RU
dc.subjectsemiconductor metal oxide compositesru_RU
dc.subjectmicropower gas sensorru_RU
dc.subjectnanoporous anodic alumina matrixesru_RU
dc.titleA Micropowered Chemoresistive Sensor Based on a Thin Alumina Nanoporous Membrane and SnxBikMoyOz Nanocompositeru_RU
dc.typeArticleru_RU
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