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Sensors (Basel)


Title:Influence of Mg Doping Levels on the Sensing Properties of SnO(2) Films
Author(s):Bendahmane B; Tomic M; Touidjen NEH; Gracia I; Vallejos S; Mansour F;
Address:"Electronic Materials Study for Medical Applications (LEMEAMED) Laboratory, Electronic Department, Science and Technology Faculty, Freres Mentouri University, 25000 Constantine, Algeria. Instituto de Microelectronica de Barcelona (IMB-CNM, CSIC), Campus UAB, 08193 Bellaterra, Spain. CEITEC-Central European Institute of Technology, Brno University of Technology, 61200 Brno, Czech Republic"
Journal Title:Sensors (Basel)
Year:2020
Volume:20200410
Issue:7
Page Number: -
DOI: 10.3390/s20072158
ISSN/ISBN:1424-8220 (Electronic) 1424-8220 (Linking)
Abstract:"This work presents the effect of magnesium (Mg) doping on the sensing properties of tin dioxide (SnO(2)) thin films. Mg-doped SnO(2) films were prepared via a spray pyrolysis method using three doping concentrations (0.8 at.%, 1.2 at.%, and 1.6 at.%) and the sensing responses were obtained at a comparatively low operating temperature (160 degrees C) compared to other gas sensitive materials in the literature. The morphological, structural and chemical composition analysis of the doped films show local lattice disorders and a proportional decrease in the average crystallite size as the Mg-doping level increases. These results also indicate an excess of Mg (in the samples prepared with 1.6 at.% of magnesium) which causes the formation of a secondary magnesium oxide phase. The films are tested towards three volatile organic compounds (VOCs), including ethanol, acetone, and toluene. The gas sensing tests show an enhancement of the sensing properties to these vapors as the Mg-doping level rises. This improvement is particularly observed for ethanol and, thus, the gas sensing analysis is focused on this analyte. Results to 80 ppm of ethanol, for instance, show that the response of the 1.6 at.% Mg-doped SnO(2) film is four times higher and 90 s faster than that of the 0.8 at.% Mg-doped SnO(2) film. This enhancement is attributed to the Mg-incorporation into the SnO(2) cell and to the formation of MgO within the film. These two factors maximize the electrical resistance change in the gas adsorption stage, and thus, raise ethanol sensitivity"
Keywords:Mg-doped SnO2 gas sensing spray pyrolysis thin films volatile organic compounds;
Notes:"PubMed-not-MEDLINEBendahmane, Bouteina Tomic, Milena Touidjen, Nour El Houda Gracia, Isabel Vallejos, Stella Mansour, Farida eng TEC2016-79898-C6-1-R (AEI/FEDER, EU)/Ministerio de Economia, Industria y Competitividad, Gobierno de Espana/ Ramon y Cajal Programme/Ministerio de Economia, Industria y Competitividad, Gobierno de Espana/ CEITEC Nano Research Infrastructure/Ministerstvo Skolstvi, Mladeze a Telovychovy/ Switzerland 2020/04/16 Sensors (Basel). 2020 Apr 10; 20(7):2158. doi: 10.3390/s20072158"

 
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