Abstract
Nanoparticles of rutile SnO 2 were synthesized by precipitation at room temperature. Samples were characterized with X-ray diffraction, transmission electron microscopy, thermoanalysis and nitrogen physisorption by BET method. The rutile crystalline structure was refined by Rietveld method. Crystallites had spherical morphology with crystallite sizes growing with the annealing temperature. The spherical crystallites aggregate to form grains composed of a number of crystallites defining the specific surface area and porosity. The crystallites contained hydroxyls in their structure and on their surface generating considerable amount of tin vacancy sites in the structure. These hydroxyls modify the Sn–O bonds, increase the lattice parameters and produce asymmetry in the representative rutile tin–oxygen octahedron. As the dehydroxylation was done with the annealing temperature, the atomic bond length between the oxygen atoms shared by adjacent octahedra decreased, contracting the lattice and increasing the symmetry.
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