Abstract
In the present study, nanocrystalline photocatalyst Bi2O3 powders with various ZnO additions were synthesized by spray pyrolysis at 600 (SP600) and 700 °C (SP700). The Bi2O3 powder converted from a monoclinic α phase to a tetragonal β phase at pyrolysis temperatures ≥ 600 °C. The crystallinity of the SP powder increased with the increase in pyrolysis temperature. The morphology of the SP powders was observed to reveal a porous structure. The photocatalytic activity of the Bi2O3-based powder strongly depends on its specific surface area. Based on a constant specific surface area, 5 mol% ZnO addition can significantly increase the photocatalytic efficiency of SP700 Bi2O3 powder from 46% to 86% under visible irradiation for 6 h. Intrinsically, the photocatalytic performance of the SP powder is affected by the crystallite size. Furthermore, the photocatalytic activity of the resulting powders was compared with that of the P25 powder (a commercialized TiO2 powder). The mechanisms for the formations of the porous powders are also delineated.
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