H2S Properties and Temperature Effects on the Response of Pristine and Al-Doped ZnO Gas Sensor

dc.contributor.authorAbdulsattar, M.A.
dc.contributor.authorAlmaroof, S.M.
dc.date.accessioned2025-05-29T08:27:14Z
dc.date.available2025-05-29T08:27:14Z
dc.date.issued2025
dc.description.abstractH2S is a poisonous gas that needs to be censored to protect humans from its exposure. H2S gas sensitivity and interaction with pristine and Al-doped ZnO clusters were studied using the transition state theory method. The reaction of ZnO with H2S gas is usually weak and can be enhanced by doping. Elements or their oxides, such as platinum group elements, are traditionally used as doping substances. However, the use of other cheaper elements or oxides such as Al or Mn also increases the reaction rate. The mechanism of increasing the reaction rate and sensitivity by Al doping is the subject of present work. The calculation results show that Al-doped ZnO increases the sensitivity towards H2S by growing the resistance of Al-doped ZnO due to lattice distortion. The Gibbs activation energy remains almost the same as calculated by the present model. In con clusion, it should be noted that good agreement between theory and experiment was achieved in terms of temperature-dependent reaction rate, gas response, recovery and response time for different doping ratios. For the first time, the autoignition reaction and temperature of H2S were considered in sensors. Further improve ment in transition state theory is needed to include further gas sensor features.ru_RU
dc.identifier.citationAbdulsattar M.A. H2S Properties and Temperature Effects on the Response of Pristine and Al-Doped ZnO Gas Sensor / M.A.Abdulsattar, S.M. Almaroof // Eurasian Physical Technical Journal. . – 2025. – Vol.30. – № 1(117). – pp. 40-49ru_RU
dc.identifier.issn2959-0671
dc.identifier.urihttps://rep.buketov.edu.kz//handle/data/20283
dc.language.isoenru_RU
dc.publisherKaragandy University of the name of academician E.A. Buketovru_RU
dc.relation.ispartofseriesEurasian Physical Technical Journal;№1(117)
dc.subjectAl dopingru_RU
dc.subjectZnO clusterru_RU
dc.subjectpristineru_RU
dc.subjectH2S gas sensorru_RU
dc.subjectDFTru_RU
dc.subjecttransition stateru_RU
dc.subjectautoignition temperatureru_RU
dc.subjectactivation energyru_RU
dc.titleH2S Properties and Temperature Effects on the Response of Pristine and Al-Doped ZnO Gas Sensorru_RU
dc.typeOtherru_RU

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