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沉淀剂对纳米ZnO的制备及光催化脱色甲基橙性能的影响 被引量:1

Influence of Precipitator on Preparation of Nanometer-sized ZnO and the Photocatalytic Performance Toward Decolorization of Methyl orange
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摘要 利用3种不同沉淀剂制备了纳米ZnO,采用X射线衍射(XRD)、扫描电镜(SEM)、紫外-可见漫反射(DR UV-Vis)、红外(IR)等对粉体进行了表征;并以ZnO作为光催化剂研究其光催化脱色甲基橙的性能。实验结果表明:在其它条件相同的情况下,采用3种沉淀剂所制备的ZnO均为六方晶型,且在采用混合碱为沉淀剂、煅烧温度为500℃的条件下,制备纳米ZnO粉末的平均粒径80.4nm;不同沉淀剂对ZnO制备及其光催化脱色甲基橙的性能有重要的影响,混合碱为沉淀剂制备的纳米ZnO具有良好的光催化脱色性能。 The nanometer-sized ZnO is prepared using three different kind of precipitator, and as-prepared nanosized zinc oxide powder is characterized by X-ray diffraction, scanning electron microscopy, diffuse reflectance ultraviolet-visible spectroscopy and IR spectra. Photocatalytic decolorization of methyl orange wastewater is investigated using ZnO as photocatalyst. The results show that ZnO prepare by three different precipitators which is hexagonal under the same condition. Nanometer-sized ZnO is fabricated by using mixed alkali as precipitator and after calcination at 500℃. The average size of ZnO prepared by mixed alkali is 80.4 nm. Precipitator can greatly influence the preparation of nanometer-sized ZnO and the photocatalytic performance toward decolorization of methyl orange. The zinc oxide prepared by mixed alkali has good photocatalytic decolorization performance.
作者 孟庆明 钟俊波 李建章 曾俊
机构地区 四川理工学院化学与制药工程学院
出处 《四川理工学院学报(自然科学版)》 CAS 2009年第4期88-90,共3页 Journal of Sichuan University of Science & Engineering(Natural Science Edition)
基金 四川省教育厅重大培育项目(07ZZ020)
关键词 纳米氧化锌 制备 光催化脱色 沉淀剂 nanometer zinc oxide preparation photocatalytic decolorization precipitator
分类号 TQ423.3 [化学工程]
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参考文献13

  • 1Xu C X,Sun X W,Dong Z L, et al.Nanostructured Single-CrystaUine Twin Disks of Zinc Oxide [J]. Crystal Growth & Design,2007,7(3):541-544.
  • 2Yang J H, Lang J H, Yang L L, et al.Low-temperature growth and optical properties of ZnO nanorods [J]. Journal of Alloys and Compounds,2008,450(1):521-524.
  • 3Bhattacharyya S,Gedanken A.A template-free,sonochemical route to porous ZnO nano-disks [J].Microporous and Mesoporous Materials,2008,110(2-3):553-559.
  • 4Lin Y R, Yang S S,Tsai S Y, et al.Visible Photoluminescence of Ultmthin ZnO Nanowire at Room Temperature [J].Crystal Growth & Design,2006,6(8):1951-1955.
  • 5Coltrin M E, Hsu J W,Scrymgeour D A,et al.Chemical kinetics and mass transport effects in solution-based selective-area growth of ZnO nanorods [J].Joumal of Crystal Crowth,2008,310(3):584 -593.
  • 6Turgeman R, Gedanken A. Crystallization of ZnO on Crystalline Magnetite Nanoparticles in the Presence of Ultrasound Radiation [J]. Crystal Growth & Design, 2006,6(10):2260-2265.
  • 7Kawano T,Imai H.Fabrication of ZnO Nanoparticles with Various Aspect Ratios through Acidic and Basic Routes [J].Crystal Growth & Design,2006,6(4):1054-1056.
  • 8Zhao J W,Ye C H,Fang X S,et al.Selective Growth of Crystalline SnO2 on the Polar Surface of ZnO Nanobelts [J].Crystal Growth & Design,2006,6(12):2643-2647.
  • 9Xu F,Zhang P,Navrotsky A,et al.Hierarchically Assembled Porous ZnO Nanoparticles :Synthesis,Surface Energy,and Photocatalytic Activity [J].Chem. Mater,2007,19 (23):5680-5686.
  • 10Kuo T J,Lin C N,Kuo C L, et al.Growth of Ultralong ZnO Nanowires on Silicon Substrates by Vapor Transport and Their Use as Recyclable Photocatalysts [J] .Chem.Mater,2007,19(21 ):5143 -5147.

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四川理工学院学报(自然科学版)
2009年 第4期

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