Abstract
Nanosized LaCoO 3 cobaltite oxide powder with perovskite structure was successfully synthesized at a relatively low calcination temperature using an amorphous heteronuclear complex, LaCo(DTPA)-6H 2 O, as a precursor. The precursor decomposed completely into cobaltite oxide above 400°C according to the DTA and TGA results. XPS revealed that the decomposed species was composed of LaCoO 3 cobaltite oxide after the precursor was calcined at 500°C for 2 hours. XRD demonstrated that nanosized LaCoO 3 crystalline powder with perovskite structure was formed after the calcination temperature increased to 600 °C. The grain size and the crystal size of LaCoO 3 increased with the calcination temperature from 500°C to 800°C, and the heat-treatment time has a less obvious effect on the grain size and the crystal size. It is a useful way to synthesize nanosized perovskite oxides using an amorphous complex as a precursor. This method can be easily quantitatively controlled.
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