4.2 Article

Sol-gel Synthesis of Boron Doped TiO2/hollow Glass Bubbles Composite Powders for Photocatalytic Degradation of Azophloxine

期刊

CURRENT NANOSCIENCE
卷 17, 期 3, 页码 475-483

出版社

BENTHAM SCIENCE PUBL LTD
DOI: 10.2174/1573413716999200819200603

关键词

Photocatalytic; hollow sphere; TiO2; calcination; azophloxine; composite

资金

  1. Scientific Research Fund of Liaoning Provincial Education Department [LG201913]

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In this study, boron-doped B-TiO2/iM16K composite hollow spheres were prepared by supporting B-TiO2 on the surface of iM16K glass bubbles to achieve a suitable density. The photocatalytic degradation efficiency of the composites was significantly affected by the calcination temperature and B-TiO2 dosage. Proper aeration or stirring in the wastewater led to thorough mixing of the photocatalyst and wastewater, enhancing the photocatalytic activity of the composite materials.
Background: B-TiO2 was supported on the surface of iM16K glass bubbles to achieve a suitable density for the B-TiO2/iM16K composite hollow spheres. Aeration or stirring in the wastewater can lead to thorough mixing of photocatalyst and wastewater. Solid-water separation is relatively easy because the materials can float on the water surface while stopping aeration or stirring. Methods: The iM16K glass bubbles were used to prepare boron-doped B-TiO2/iM16K composite hollow spheres through a sol-gel route. The materials were characterized by X-ray diffraction, scanning electron microscope, Fourier transforms infrared spectroscopy, UV-Visible diffuse reflectance spectrometry, and N-2 adsorption-desorption techniques. The photocatalytic degradation of azophloxine on the composites was determined. Results: The bandgap energy of the B-TiO2/iM16K composite was slightly less than 3.0 eV when the calcination temperature was below 500 degrees C. The sample calcined at 350 degrees C had a BET surface area of 88.6 m(2)/g, while the value of the sample calcined at 800 degrees C was 1.2 m(2)/g. The maximum photocatalytic degradation efficiency was obtained for the sample calcined at 450 degrees C, and nearly all of the original azophloxine molecules were decomposed after 120 min of irradiation. Photocatalytic degradation efficiency after 30 min of irradiation was enhanced from 18.8% to 47.9% when the B-TiO2 dosage increased from 100 to 800 mg/L. Conclusion: Crystallization of anatase TiO2 was temperature-dependent, and the properties of BTiO2/iM16K composite hollow spheres were affected by the phase composition of the boron-doped TiO2 layer. The change in calcination temperature can have a significant effect on the photocatalytic degradation of azophloxine. The production of hydroxyl radical depended on the photocatalytic activity of the B-TiO2/iM16K composite hollow spheres.

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