Synthesis of surface sulfated BiWO with enhanced photocatalytic performance

Sulfated BiWO (SBiWO) was synthesized by an impregnation method to enhance the visible-light-driven photoactivities of BiWO (BiWO). The characterization results verified that sulfate anion mainly anchored on the catalyst surface greatly extended the visible- light-responsive range without destroying...

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Bibliographic Details
Published in:Journal of environmental sciences (China) 2012-01, Vol.24 (12), p.2180-2190
Main Authors: Ju, Yongming, Hong, Jianming, Zhang, Xiuyu, Xu, Zhencheng, Wei, Dongyang, Sang, Yanhong, Fang, Xiaohang, Fang, Jiande, Wang, Zhenxing
Format: Article
Language:English
Subjects:
Bismuth - chemistry
Catalysis
catalysts
Environmental Pollutants - chemistry
Environmental Pollutants - radiation effects
free radical scavengers
irradiation
lamps
Malachite Green
microwave
photocatalysis
photocatalytic
Photolysis
reactive oxygen species
Rosaniline Dyes - chemistry
Rosaniline Dyes - radiation effects
salicylic acid
sulfated BiWO
Sulfuric Acid Esters - chemical synthesis
Ultraviolet Rays
UV-Vis
visible light
催化剂表面
光催化性能
可见光响应
合成
硫酸根
自由基清除剂
表面增强
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Summary:Sulfated BiWO (SBiWO) was synthesized by an impregnation method to enhance the visible-light-driven photoactivities of BiWO (BiWO). The characterization results verified that sulfate anion mainly anchored on the catalyst surface greatly extended the visible- light-responsive range without destroying the crystal lattice. Moreover, the SBiWO-based photoactivities were evaluated with the removal of Malachite Green (MG) under UV-Vis irradiation emitted from two microwave-powered electrodeless discharge lamps (MPEDL_2) and under visible light (L 〉 420 nm). The results demonstrated that the kinetic constant was increased 2.25 times, varying from 0.1478 (BiWO) to 0.3328 rain-1 (SBiWO- 1 ). Similar results were also obtained for the visible light-driven reaction. Furthermore, radical scavengers such as t-butanol restricted the visible-light induced degradation of MG over BiWO and SBiWO-1. This indicated that the sulfating process increased the generation of reactive oxygen species, which was further verified by molecular probe with salicylic acid. Thus, more blue-shifting at k = 618 nm was observed over SBiWO. On the basis of the above results, the photocatalytic mechanism over the sulfated catalyst was also discussed.
ISSN:1001-0742
1878-7320
DOI:10.1016/S1001-0742(11)61061-9