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Volume 27 Issue 1
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Chinese Journal of High Pressure Physics  > 2013  >  27(1): 51-56.
LIU Jian-Jun, ZHANG Hong-Ling, CHEN Peng-Wan, GAO Xiang, CUI Nai-Fu. Shock Synthesis of N-Doped Titania and Its Photocatalytic Activity under Visible Irradiation[J]. Chinese Journal of High Pressure Physics, 2013, 27(1): 51-56. doi: 10.11858/gywlxb.2013.01.007
Citation: LIU Jian-Jun, ZHANG Hong-Ling, CHEN Peng-Wan, GAO Xiang, CUI Nai-Fu. Shock Synthesis of N-Doped Titania and Its Photocatalytic Activity under Visible Irradiation[J]. Chinese Journal of High Pressure Physics, 2013, 27(1): 51-56. doi: 10.11858/gywlxb.2013.01.007
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Shock Synthesis of N-Doped Titania and Its Photocatalytic Activity under Visible Irradiation

doi: 10.11858/gywlxb.2013.01.007
  • 1.

    Faculty of Science, Beijing University of Chemical Technology, Beijing 100029, China;

  • 2.

    State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China

  • Received Date: 05 Sep 2011
  • Rev Recd Date: 17 Nov 2011
  • Publish Date: 15 Feb 2013
    Abstract
  • Shock transformation and shock-induced chemical reaction in materials can lead to their obvious changes of physical and chemical properties. In this paper, the powder mixtures of nitrogen-rich of C2N4H4 and P25 TiO2 or metatitanic acid were shocked by the impact of flyer plates driven by explosive detonation, and the recovered samples were characterized by X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, Brunauer-Emmett-Teller (BET) surface area analysis and UV-Vis spectra and evaluated by the photocatalytic degradation of methylene blue and Rhodamine B. The results indicate that the doping level of nitrogen-doped TiO2 reaches 8.88% (atom fraction) using the P25 TiO2 as raw materials which exhibits obvious absorption in visible region. Its energy gap decreases to 1.75 eV together with the formation of srilankite high-pressure phase. The doping level is 3%-4% (atom fraction) corresponding to the small variation of the energy gap using the metatitanic acid as raw materials. The specific surface area of the sample increases dramatically due to the unique shock dehydration-expansion mechanism. The nitrogen-doped TiO2 have better adsorption capability and photocatalytic activity under visible irradiation for the degradation of methylene blue and Rhodamine B, among which treated at higher impact velocity shows the higher photocatalytic activity.

     

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