Influence of Mg Doping Levels on the Sensing Properties of SnO2 Films

Abstract: This work presents the effect of magnesium (Mg) doping on the sensing properties of tin dioxide (SnO2) thin films. Mg-doped SnO2 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 °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 a… Show more

“…The figure displays lines before the peak separation in red, the overall fitting result in gray, the fitting results for O-Sn 4+ in purple, the fitting results for O-Sn 2+ , the fitting results for V o in purple, and the fitting results for O cem in green. The energy difference between O-Sn 2+ and O-Sn 4+ , O-Sn 2+ and V o , and O-Sn 2+ and O cem were set to 0.7, 1.6, and 2.1 ∼ 2.2 eV, respectively, based on Aragoń et al 54) and Bendahmane et al 55) The O-Sn 2+ peak was observed to be stronger than the O-Sn 4+ peak for the sample with a deposition pressure of 0.3 Pa and f(O 2 ) value of 8%. Moreover, the O-Sn 4+ peak was observed to be stronger than the O-Sn 2+ peak for the sample with a deposition pressure of 0.3 Pa and f(O 2 ) value of 10%.…”

Controlling the structure and composition of SnO₂-based thin film with reactive sputtering to improve the sensitivity of semiconductor CO₂ sensor

“…The figure displays lines before the peak separation in red, the overall fitting result in gray, the fitting results for O-Sn 4+ in purple, the fitting results for O-Sn 2+ , the fitting results for V o in purple, and the fitting results for O cem in green. The energy difference between O-Sn 2+ and O-Sn 4+ , O-Sn 2+ and V o , and O-Sn 2+ and O cem were set to 0.7, 1.6, and 2.1 ∼ 2.2 eV, respectively, based on Aragoń et al 54) and Bendahmane et al 55) The O-Sn 2+ peak was observed to be stronger than the O-Sn 4+ peak for the sample with a deposition pressure of 0.3 Pa and f(O 2 ) value of 8%. Moreover, the O-Sn 4+ peak was observed to be stronger than the O-Sn 2+ peak for the sample with a deposition pressure of 0.3 Pa and f(O 2 ) value of 10%.…”

Controlling the structure and composition of SnO₂-based thin film with reactive sputtering to improve the sensitivity of semiconductor CO₂ sensor

“…The centrifugal force generated by the spinning causes the solution to spread uniformly across the substrate and evaporate, leaving behind a thin film on the surface [17] . MgO:SnO 2 thin films obtained by spin coating have potential applications in various fields, including optoelectronics [18], and gas sensors [19]. The properties of the thin films, such as their thickness, composition, and morphology, can be tuned by adjusting the concentration and ratio of the precursor materials in the solution and the spin-coating parameters, such as spin speed, spin time, and temperature [20].…”

Enhancements of Structural and Optical Properties of MgO: SnO2 Nanostructure Films

A systematic review on 2D materials for volatile organic compound sensing