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Citation:
shu

null

  • 1.

    Department of Physics, Qufu Normal University, Qufu 273165, China;

  • 2.

    College of Physics, Ludong University, Yantai 264025, China

  • Corresponding author: LI Qing-shan, qslildu@126.com
  • Received Date: 2010-04-23
    Accepted Date: 2010-06-01
  • In order to study the property of Eu3+ and Li+ co-doped ZnO thin film, it was deposited on the P-type Si (111) substrate by means of pulsed laser deposition(PLD)method with Eu3+ as luminous center and Li+ as the low charged compensated ions and the sensitizer. The photoluminescent(PL) spectra and the X-ray diffraction(XRD) spectra of the film were measured to analyze the crystal structure and photoluminescent property. Through XRD, it can be seen that the ZnO:Eu3+,Li+ film was highly c-axis oriented. In the XRD spectrum, no other crystal orientations were observed except the ZnO crystal orientation. The doping of Eu3+ into ZnO lattice introduced tensile stress, making ZnO crystal lattice spacing larger; but as the oxygen pressure increased, the crystal lattice spacing and lattice constant both had a smaller trend. The PL spectra of the Eu3+, Li+ co-doped ZnO thin film was similar with that of pure ZnO films, but the UV emission peak showed a red-shift phenomenon at about 382nm, and the emission peak was not sharp. When irradiated under the wavelength of 395nm, obvious emission at the wavelength of about 594nm,613nm from the rare-earth element of Eu3+ was observed in the photoluminescence spectra. All the results indicate that the doping elements of Eu3+ and Li+ have incorporated into the crystal lattice of ZnO, and conform the wurtzite structure with Eu3+ as its luminescent centre.
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    ISHIZUMI A,TAKAHASHI Y,YAMAMOTO A,et al.Fabrication and optical properties of Eu3+-doped ZnO nanospheres and nanorods[J].Materials Science and Engineering,2008,B146(1/3):212-215.
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    LU Zh Y,HE F F,XU P Ch,et al.Effects of heat-treatment temperature on Eu3+ and Li+ co-doped ZnO photoluminescence by sol-gel process[J].Journal of Wuhan University of Technology Materials Science,2008,23(1):20-23(in Chinese).
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通讯作者: 陈斌, bchen63@163.com
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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    Corresponding author: LI Qing-shan, qslildu@126.com
  • 1. Department of Physics, Qufu Normal University, Qufu 273165, China;
  • 2. College of Physics, Ludong University, Yantai 264025, China
  • Received Date: 2010-04-23
  • Accepted Date: 2010-06-01
  • Available Online: 2011-01-25

Abstract: In order to study the property of Eu3+ and Li+ co-doped ZnO thin film, it was deposited on the P-type Si (111) substrate by means of pulsed laser deposition(PLD)method with Eu3+ as luminous center and Li+ as the low charged compensated ions and the sensitizer. The photoluminescent(PL) spectra and the X-ray diffraction(XRD) spectra of the film were measured to analyze the crystal structure and photoluminescent property. Through XRD, it can be seen that the ZnO:Eu3+,Li+ film was highly c-axis oriented. In the XRD spectrum, no other crystal orientations were observed except the ZnO crystal orientation. The doping of Eu3+ into ZnO lattice introduced tensile stress, making ZnO crystal lattice spacing larger; but as the oxygen pressure increased, the crystal lattice spacing and lattice constant both had a smaller trend. The PL spectra of the Eu3+, Li+ co-doped ZnO thin film was similar with that of pure ZnO films, but the UV emission peak showed a red-shift phenomenon at about 382nm, and the emission peak was not sharp. When irradiated under the wavelength of 395nm, obvious emission at the wavelength of about 594nm,613nm from the rare-earth element of Eu3+ was observed in the photoluminescence spectra. All the results indicate that the doping elements of Eu3+ and Li+ have incorporated into the crystal lattice of ZnO, and conform the wurtzite structure with Eu3+ as its luminescent centre.

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