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Preparation of Photocatalytic TiO_2 and TiO_2-SiO_2 Particles and Application to Degradation of Trace Organics in Aqueous Solution 被引量:2

Preparation of Photocatalytic TiO_2 and TiO_2-SiO_2 Particles and Application to Degradation of Trace Organics in Aqueous Solution
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摘要 TiO2 and TiO2-SiO2 photocatalysts were prepared by sol-gel and supercritical CO2 fluid drying method and characterized by X-ray diffraction (XRD), transmission electron microscope (TEM), etc. Their catalytic properties were tested through the photocatalytic degradation of phenol and aniline in wastewater. The results show that the developed fluidized photocatalytic reactor (FPR) and TiO2 catalyst had better performance in degrading pollutants as compared with slurry photocatalytic reactor (SPR) and commercial TiO2 catalyst. The composition and crystal form of TiO2-SiO2 composite oxide had obvious influence on catalytic effect and TiO2-SiO2 photocatalysts showed better catalytic activity and stability. TiO2 and TiO2-SiO2 photocatalysts were prepared by sol-gel and supercritical CO2 fluid drying method and characterized by X-ray diffraction (XRD), transmission electron microscope (TEM), etc. Their catalytic properties were tested through the photocatalytic degradation of phenol and aniline in wastewater. The results show that the developed fluidized photocatalytic reactor (FPR) and TiO2 catalyst had better performance in degrading pollutants as compared with slurry photocatalytic reactor (SPR) and commercial TiO2 catalyst. The composition and crystal form of TiO2-SiO2 composite oxide had obvious influence on catalytic effect and TiO2-SiO2 photocatalysts showed better catalytic activity and stability.
作者 周亚松
机构地区 State Key Laboratory of Heavy Oil Processing
出处 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2003年第6期665-670,共6页 中国化学工程学报(英文版)
关键词 titanium dioxide composite oxide photocatalytic activity DEGRADATION 二氧化钛 TiO2 二氧化硅 SiO2 复合氧化物 降解水 有机污染物 光催化活性 金属催化剂
分类号 O643.3 [理学—物理化学]
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参考文献8

  • 1Ding, Z., Lu, G.Q., Greenfield, P.F., "Role of thecrystallite phase of TiO2 in heterogeneous photocatalysis for phenol oxidation inwater", J. Phys. Chem., B, 104 (19), 4815-4820 (2000).
  • 2Ying, J.Y., "Role of particle size in nanocrystalline TiO2-basedphotocatalysts", J. Phys. Chem. B, 102 (52),10871-10878 (1998).
  • 3Sanjines, R., Tang, H., Berger, H., "Electronic structure of anatase TiO2oxide", J. Appl. Phys., 75 (6), 2945-2951(1994).
  • 4Choi, W., Y., Termin, A., "The role of metal ion dopants in quantum-sizedTiO2: Correlation between photoreactivity and charge carrier recombination dynamics",J. Phys.Chem., 98 (51), 13669-13679 (1994).
  • 5Chary, K.V.R., Bhaskar, T., Kishan, G., "Characterization of MoO3/TiO2(anatase) catalysts by ESR, 1H MAS NMR,and oxygen chemisorption", J. Phys. Chem. B,102 (20),3936-3940 (1998).
  • 6Serrano, B., de Lasa, H., "Photocatalytic degradation of water organicpollutants. Kinetic modeling and energy efficiency", Ind. Eng. Chem. Res., 36,4705-4711 (1997).
  • 7Rideh, L., Wehrer, A., Ronze, D., Zoulalian, A., "Photocatalytic degradationof 2-chlorophenol in TiO2 aqueous suspension: Modeling of reaction rate", Ind. Eng.Chem.Res., 36, 4712-4718 (1997).
  • 8Rey, A.K., Beenackers, A.A.C.M., "Novel photocatalytic reactor for waterpurification", AIChE J., 44 (2), 477-483(1998).

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Chinese Journal of Chemical Engineering
2003年 第6期

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