PREPARATION AND VISIBLE-LIGHT PHOTOCATALYTIC PROPERTIES OF BiFeO3 BY CO-PRECIPITATION METHOD
Keywords:
Bismuth ferrite (BiFeO3), co-precipitation method, effect of pH, nano powders, photocatalytic degradation, Reactive Yellow 160Abstract
In this study, nano BiFeO3 powders were successfully synthesized by co-precipitation method which dissolved PVA in water with Bi/Fe/PVA = 1/1/3 molar ratio, at pH = 12. Research results showed that BiFeO3 nano powders have been formed at a temperature of 110ºC after 4 hours of drying. When materials were calcined at higher temperatures, from 250ºC to 550ºC for 2 hours, BiFeO3 appears more frequently, with a particle size of about 100nm. However, the material system had not achieved pure monophasic state, still had some other phases like Bi2O3, Bi25FeO40 and substrate. Differential thermal analysis method (TG/DTA), X-ray diffraction method (XRD), scanning electron microscopy method (SEM) were used to study the structural characteristics of materials. The study determined the effect of calcination temperature (250, 350, 450, 550ºC), pH values (1, 3, 6, 9, 12), presence of H2O2 on photocatalytic ability of the material formed in the treatment of RY160 in the visible light region. The dye concentration was determined by the method of Ultraviolet – visible spectroscopy (UV-Vis) at 425 nm. Experimental results showed that, the RY160 degradation efficiency of BFO materials varied significantly when changing the pH and H2O2 was attended. The calcined materials were presented with high performance. Specifically, at pH = 3, added 1mL H2O2, the RY160 decomposing efficiency of BFO450 up to 100% after 90 minutes of lighting.
