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Ceramics International, vol.40 (1) part B, 2014, pages 1321–1328

Morphological, structural, and gas-sensing characterization of tin- doped indium oxide nanoparticles

Abstract

Tin-doped indium oxide (ITO) nanoparticles with stable cubic phases were synthesized using a sol–gel combustion method that includes gelation and combustion in organic fuel. The influence of SnO2 on the phase and morphology of the In2O3 nanoparticles were studied by X- ray diffraction, scanning electron microscopy, and high resolution transmission electron microscopy (TEM), along with selected area electron diffraction. ITO nanoparticles with 11–

20 nm crystallite size and 69–46 m2⧸g specific surface area were obtained. The lattice constant was nearly 10.12 Å, with orientation along the (222), (400), and (110) planes for all proportions of the doped SnO, indicating a stable cubic phase with high conductivity. The TEM micrograph of the ITO nanoparticles and powder revealed spherical morphology. The microstructure of the cured In2O3:Sn with Sn concentrations of 5, 10, 20, and 50 wt% demonstrated that the ITO nanoparticles clustered more densely with the increase in Sn concentration. The gas-sensing ability of the synthesized powders was demonstrated through the sensing of ethanol vapor at 200 °C.

Keywords; Sol–gel combustion, Sn-doped indium oxide, Structural, Electrical

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