A comparison between Ce(Ⅲ) and Ce(Ⅳ) ions in photocatalytic degradation of organic pollutants
来源期刊:JOURNAL OF RARE EARTHS2015年第3期
论文作者:程强 施薇 段炼 孙彬哲 李晓霞 徐爱华
文章页码:249 - 254
摘 要:Nano cerium oxides are efficient photocatalysts for pollutants degradation with highly dispersed Ce(III) ions as the suggested active species to promote the reaction, while Ce(IV) species do not behave as a catalyst. In this paper, to understand the mechanism of Ce-based photocatalysts, we studied the comparison of simple cerium ions, Ce(III) and Ce(IV) in aqueous solution for organic pollutants degradation under UV irradiation. Orange II(AOII), methyl orange, and p-nitrophenol were selected as the target pollutants. The formation and contribution of reactive oxygen species, the kinetics of Ce(IV) photoreduction and Ce(III) photooxidation, and the influence of solution p H were investigated in detail. It was found that at low p H Ce(IV) ions showed a higher activity for hydroxyl radicals production and AOII degradation than Ce(III) ions, which could be attributed to its fast reduction rate to Ce(III). However, its activity dramatically decreased when solution p H increased, and was also strongly influenced by the type of pollutants; while Ce(III) exhibited high degradation efficiency of all the tested pollutants over a wide pH range.
程强1,施薇1,段炼1,孙彬哲1,李晓霞2,徐爱华1
1. School of Environmental Engineering, Wuhan Textile University2. School of Chemistry and Chemical Engineering, Wuhan Textile University
摘 要:Nano cerium oxides are efficient photocatalysts for pollutants degradation with highly dispersed Ce(III) ions as the suggested active species to promote the reaction, while Ce(IV) species do not behave as a catalyst. In this paper, to understand the mechanism of Ce-based photocatalysts, we studied the comparison of simple cerium ions, Ce(III) and Ce(IV) in aqueous solution for organic pollutants degradation under UV irradiation. Orange II(AOII), methyl orange, and p-nitrophenol were selected as the target pollutants. The formation and contribution of reactive oxygen species, the kinetics of Ce(IV) photoreduction and Ce(III) photooxidation, and the influence of solution p H were investigated in detail. It was found that at low p H Ce(IV) ions showed a higher activity for hydroxyl radicals production and AOII degradation than Ce(III) ions, which could be attributed to its fast reduction rate to Ce(III). However, its activity dramatically decreased when solution p H increased, and was also strongly influenced by the type of pollutants; while Ce(III) exhibited high degradation efficiency of all the tested pollutants over a wide pH range.
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