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The fabrication of floating Fe/N co-doped titania/diatomite granule catalyst with enhanced photocatalytic efficiency under visible light irradiation

DOI:10.1016/j.apt.2018.10.014 期刊:Advanced Powder Technology 出版年份:2018 更新时间:2025-09-23 15:21:21
摘要: Powdery photocatalyst has long been studied, yet its several disadvantages such as light-harvesting and recyclability in suspension system are the bottlenecks for practical application. The recent report on floating photocatalyst provided an alternative method to solve the above problem. In this work, TiO2 nanoparticles were co-doped by iron and nitrogen, and then dispersed onto natural porous mineral diatomite via sol-gel method. The composite powder was granulated to produce floating granule catalyst (Fe/N co-doped TiO2/diatomite hybrid granule), denoted as FN-TDHG. Its various physicochemical properties such as light absorbance, crystallinity, surface condition as well as morphology were systematically analyzed. The synergy between Fe and N dopants, as well as diatomite and TiO2 were studied. The photoactivity of FN-TDHG was investigated via the degradation towards tetracycline (TC) solution under visible light irradiation, and then the optimal co-doping amount and granule dosage were determined. The optimal granule catalyst presented its removal rate of TC as 96.5% within 150 min. Moreover, floating FN-TDHG could simply be filtrated from the surface of water matrix, and presented good reusability after 5 repetitions. This photocatalytic granule is hopefully considered suitable to be applied in environmental remediation.
作者: Yan Chen,Qiong Wu,Li Liu,Jun Wang,Youtao Song
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研究目的

To fabricate a floating Fe/N co-doped titania/diatomite granule catalyst with enhanced photocatalytic efficiency under visible light irradiation for environmental remediation.

研究成果

The floating Fe/N co-doped TiO2/diatomite granule catalyst (FN-TDHG) demonstrated enhanced photocatalytic efficiency under visible light irradiation, with a high removal rate of tetracycline and good reusability. This makes it a promising candidate for environmental remediation applications.

研究不足

The study focuses on the degradation of tetracycline under visible light, and the reusability was tested only up to 5 repetitions. The scalability and cost-effectiveness for large-scale environmental applications were not addressed.

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