Preparation of nano-TiO2/diatomite-based porous ceramics and their photocatalytic kinetics for formaldehyde degradation
Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric–differential thermal analysis, and the phase and microstructure were characterized by X-r...
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| Published in | International journal of minerals, metallurgy and materials Vol. 25; no. 1; pp. 73 - 79 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Beijing
University of Science and Technology Beijing
2018
Springer Nature B.V School of Environmental Science and Engineering, North China University of Water Resources and Electric Power, Zhengzhou 450011, China%Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Beijing 100083, China |
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| Abstract | Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric–differential thermal analysis, and the phase and microstructure were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and transmission electron microscopy. The results indicated that the carriers were encapsulated by nano-TiO2 with a thickness of 300–450 nm. The main crystalline phase of TiO2 calcined at 650℃ was anatase, and the average grain size was 8.3 nm. The FT-IR absorption bands at 955.38 cm-1 suggested that new chemical bonds among Ti, O, and Si had formed in the composites. The photocatalytic(PC) activity of the composites was investigated under UV irradiation. Furthermore, the photodegradation kinetics of formaldehyde was investigated using the composites as the cores of an air cleaner. A kinetics study showed that the reaction rate constants of the gas-phase PC reaction of formaldehyde were κ = 0.576 mg·m–3·min–1 and K = 0.048 m3/mg. |
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| AbstractList | Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric–differential thermal analysis, and the phase and microstructure were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and transmission electron microscopy. The results indicated that the carriers were encapsulated by nano-TiO2 with a thickness of 300–450 nm. The main crystalline phase of TiO2 calcined at 650°C was anatase, and the average grain size was 8.3 nm. The FT-IR absorption bands at 955.38 cm−1 suggested that new chemical bonds among Ti, O, and Si had formed in the composites. The photocatalytic (PC) activity of the composites was investigated under UV irradiation. Furthermore, the photodegradation kinetics of formaldehyde was investigated using the composites as the cores of an air cleaner. A kinetics study showed that the reaction rate constants of the gas-phase PC reaction of formaldehyde were κ = 0.576 mg·m–3·min–1 and K = 0.048 m3/mg. Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO 2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric–differential thermal analysis, and the phase and microstructure were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and transmission electron microscopy. The results indicated that the carriers were encapsulated by nano-TiO 2 with a thickness of 300–450 nm. The main crystalline phase of TiO 2 calcined at 650°C was anatase, and the average grain size was 8.3 nm. The FT-IR absorption bands at 955.38 cm −1 suggested that new chemical bonds among Ti, O, and Si had formed in the composites. The photocatalytic (PC) activity of the composites was investigated under UV irradiation. Furthermore, the photodegradation kinetics of formaldehyde was investigated using the composites as the cores of an air cleaner. A kinetics study showed that the reaction rate constants of the gas-phase PC reaction of formaldehyde were κ = 0.576 mg·m –3 ·min –1 and K = 0.048 m 3 /mg. Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric–differential thermal analysis, and the phase and microstructure were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and transmission electron microscopy. The results indicated that the carriers were encapsulated by nano-TiO2 with a thickness of 300–450 nm. The main crystalline phase of TiO2 calcined at 650℃ was anatase, and the average grain size was 8.3 nm. The FT-IR absorption bands at 955.38 cm-1 suggested that new chemical bonds among Ti, O, and Si had formed in the composites. The photocatalytic(PC) activity of the composites was investigated under UV irradiation. Furthermore, the photodegradation kinetics of formaldehyde was investigated using the composites as the cores of an air cleaner. A kinetics study showed that the reaction rate constants of the gas-phase PC reaction of formaldehyde were κ = 0.576 mg·m–3·min–1 and K = 0.048 m3/mg. Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared composites was investigated using thermogravimetric-differential thermal analysis, and the phase and microstructure were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and transmission electron microscopy. The results indicated that the carriers were encapsulated by nano-TiO2 with a thickness of 300-450 nm. The main crystalline phase of TiO2 calcined at 650°C was anatase, and the average grain size was 8.3 nm. The FT-IR absorption bands at 955.38 cm-1 suggested that new chemical bonds among Ti, O, and Si had formed in the composites. The photocatalytic (PC) activity of the composites was investigated un-der UV irradiation. Furthermore, the photodegradation kinetics of formaldehyde was investigated using the composites as the cores of an air cleaner. A kinetics study showed that the reaction rate constants of the gas-phase PC reaction of formaldehyde wereκ= 0.576 mg·m-3·min-1 andK = 0.048 m3/mg. |
| Author | Ru-qin Gao Qian Sun Zhi Fang Guo-ting Li Meng-zhe Jia Xin-mei Hou |
| AuthorAffiliation | School of Environmental Science and Engineering,North China University of Water Resources and Electric Power;Collaborative Innovation Center of Steel Technology,University of Science and Technology Beijing |
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| ContentType | Journal Article |
| Copyright | University of Science and Technology Beijing and Springer-Verlag GmbH Germany, part of Springer Nature 2018 University of Science and Technology Beijing and Springer-Verlag GmbH Germany, part of Springer Nature 2018. Copyright © Wanfang Data Co. Ltd. All Rights Reserved. |
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| Keywords | nano titanium dioxide/diatomite kinetic equation porous ceramics photocatalytic activity hydrolysis precipitation formaldehyde degradation nanotitanium dioxide/diatomite formalde-hyde degradation |
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| Notes | Ru-qin Gao;Qian Sun;Zhi Fang;Guo-ting Li;Meng-zhe Jia;Xin-mei Hou;School of Environmental Science and Engineering,North China University of Water Resources and Electric Power;Collaborative Innovation Center of Steel Technology,University of Science and Technology Beijing 11-5787/TF ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 |
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| PublicationTitle | International journal of minerals, metallurgy and materials |
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| PublicationYear | 2018 |
| Publisher | University of Science and Technology Beijing Springer Nature B.V School of Environmental Science and Engineering, North China University of Water Resources and Electric Power, Zhengzhou 450011, China%Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Beijing 100083, China |
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| Snippet | Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared... Diatomite-based porous ceramics were adopted as carriers to immobilize nano-TiO 2 via a hydrolysis-deposition technique. The thermal degradation of as-prepared... |
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| SubjectTerms | Absorption spectra Air cleaners Anatase Ceramics Characterization and Evaluation of Materials Chemical bonds Chemistry and Materials Science Composite materials Composites Corrosion and Coatings Diatomaceous earth Differential thermal analysis Emission control equipment Formaldehyde Fourier transforms Glass Grain size Infrared spectroscopy Irradiation Kinetics Materials Science Metallic Materials Natural Materials Photocatalysis Photodegradation Rate constants Surfaces and Interfaces Thermal analysis Thermal degradation Thickness Thin Films Titanium dioxide Tribology Ultraviolet radiation X-ray diffraction |
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| Title | Preparation of nano-TiO2/diatomite-based porous ceramics and their photocatalytic kinetics for formaldehyde degradation |
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