In this work we report the synthesis, microstructure, electric and spectroscopic properties, and sensing performances of TixSn1−xO2 (x=0.1, 0.2, 0.3, 0.5, 0.7, 0.9) nano-powders and of SnO2 and TiO2 reference samples, prepared via sol-gel route starting from metal-organic precursors working in hydro-alcoholic media. Actually, the attention is particularly focused on properties of the sample with x=0.2, in comparison with ones of the other solid solutions and of the single oxides. Indeed, this solid solution showed a borderline behaviour between that of the solid solution with x=0.1 and that of the other solid solutions with x≥0.3. An abrupt change in the structural, electrical and spectroscopic properties has been observed, passing from sample with x=0.1, showing a behaviour very similar to that of SnO2, to one x=0.3 showing a behaviour very similar to that of TiO2. The borderline properties of the mixed oxide with x=0.2 represent the expected continuous transition among the two behaviours.

Electrical and spectroscopic properties of Ti0.2 Sn0.8O2 solid solution for gas sensing

GHIOTTI, Giovanna;MORANDI, Sara
2009-01-01

Abstract

In this work we report the synthesis, microstructure, electric and spectroscopic properties, and sensing performances of TixSn1−xO2 (x=0.1, 0.2, 0.3, 0.5, 0.7, 0.9) nano-powders and of SnO2 and TiO2 reference samples, prepared via sol-gel route starting from metal-organic precursors working in hydro-alcoholic media. Actually, the attention is particularly focused on properties of the sample with x=0.2, in comparison with ones of the other solid solutions and of the single oxides. Indeed, this solid solution showed a borderline behaviour between that of the solid solution with x=0.1 and that of the other solid solutions with x≥0.3. An abrupt change in the structural, electrical and spectroscopic properties has been observed, passing from sample with x=0.1, showing a behaviour very similar to that of SnO2, to one x=0.3 showing a behaviour very similar to that of TiO2. The borderline properties of the mixed oxide with x=0.2 represent the expected continuous transition among the two behaviours.
2009
517
6176
6183
Nanomaterials; Semiconductor oxides; Solid solutions; Chemoresistive gas sensors.
M.C. Carotta; S. Gherardi; V. Guidi; C. Malagù; G. Martinelli; B. Vendemiati; M. Sacerdoti; G. Ghiotti; S. Morandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/67046
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