Characterization and hydrothermal synthesis of nanocrystalline -Fe2O3 with different morphologies

The nanocrystalline -Fe2O3 was prepared using ferric(III) chloride and sodium hydroxide by a hydrothermal process. The effects of hydrothermal reaction temperature and time, concentration of sodium hydroxide on the morphology of -Fe2O3 were studied. The prepared -Fe2O3 products were characterized by powder X-ray diffraction (XRD) and scanning electron microscopy (SEM). The results show that hydrothermal reaction temperature and time, concentration of sodium hydroxide have all effects on morphology of -Fe2O3. When hydrothermal reaction temperature is raised from 140 degrees C to 200 degrees C, the morphologies of -Fe2O3 samples are gradually converted from a needle-like mixture to a single flaky. When hydrothermal reaction time increased from 8h to 24h, the morphologies of -Fe2O3 samples gradually changed from grain to flaky. And when concentration of sodium hydroxide increased from 1mol/L to 6.5mol/L, the morphologies of -Fe2O3 samples changed from quasi-cubic to sheet.