Mechanothermal Synthesis of SrSnO<sub>3</sub>

The synthesis of strontium metastannate (SrSnO₃) has been performed by coupling mechanical activation with thermal activation of SnC₂O₄-SrCO₃ mixtures. The solid-state reaction has been studied by TG-DSC analysis and powder X-ray diffraction. By annealing experiments performed on physical mixtures (no mechanical activation) it has been assessed that the formation of SrSnO₃ occurs through the intermediate Sr₂SnO₄ and is complete only after annealing at 1400 °C. By performing the annealing experiments on activated mixtures it has been established that the formation of SrSnO₃ takes place directly at temperatures between 800 and 1000 °C. The SrSnO₃ samples obtained at 800 and 900 °C show, by TG analysis, mass loss processes that suggest that SrSnO₃ obtained at these temperatures absorbs H₂O and CO₂ from the air so that its use as gas sensor can be envisaged. This is no longer true for the sample obtained at 1000 °C or above.