欢迎登录材料期刊网

材料期刊网

高级检索

The Tb3+single-doped and Tb3+-Yb3+co-doped glass ceramics with the precipitation of CaF2, CaF2-SrF2 solid state solu-tion and SrF2 nanocrystals were designed and prepared by taking different amounts of CaF2 and SrF2 as the starting fluorides to inves-tigate the influence of the crystalline phase on the total quantum efficiency. The formation of the fluoride nanocrystals and the incor-poration of the doped rare earth ions into the fluoride nanocrystals were proved by the XRD measurement. The energy transfer from Tb3+to Yb3+was studied by the steady and time resolved spectra. The total internal quantum efficiencies were calculated based on the measured Tb3+lifetime, which was about 10.5%improved in the SrF2 nanocrystals precipitated glass ceramics compared with that in the CaF2 nanocrystals precipitated glass ceramics mainly due to the lower phonon energy environment. Meanwhile, the total external quantum efficiencies were evaluated with the integrating sphere measurement system, which were 18.6%, 19.3%and 24.4%, respec-tively, for the CaF2, CaF2-SrF2 and SrF2 nanocrystals precipitated glass ceramics. Additionally, obvious difference between the calcu-lated total internal quantum efficiency and the measured total external quantum efficiency was also discussed.

参考文献

[1] Richards B S. Luminescent layers for enhanced silicon solar cell performance:down-conversion. Sol. Energy Mater. Sol. Cells, 2006, 90:1189.,2006.
[2] van der Ende B M, Aarts L, Meijerink A. Lanthanide ions as spectral converters for solar cells. Phys. Chem. Chem. Phys., 2009, 11(47):11081.,2009.
[3] Zhang Q Y, Huang X Y. Recent progress in quantum cutting phosphors. Prog. Mater. Sci., 2010, 55:353.,2010.
[4] Zhang Q Y, Yang G F. Cooperative downconversion in GdAl3(BO3)4:RE3+, Yb3+(RE=Pr, Tb, and Tm). Appl. Phys. Lett., 2007, 91(5):051903.,2007.
[5] Ende B M V der, Aarts L, Meijerink A. Near-infrared quantum cutting for photovoltaics. Adv. Mater., 2009, 21:3072.,2009.
[6] XU Bo,YANG Bin,ZHANG Yuepin,XIA Haiping,WANG Jinhao.Cooperative energy transfer in Tm3+ and Yb3+ co-doped phosphate glasses[J].稀土学报(英文版),2013(02):164-168.
[7] Van der Ende B M. Downconversion for solar cells in NaYF4:Er, Yb. J. Appl. Phys., 2009, 106:023522.,2009.
[8] Piskula Z, Czajka J, Staninski K, Lis S. Luminescence properties of calcium tungstate activated by lanthanide(III)ions. J. Rare Earths, 2014, 32:221.,2014.
[9] Guo L N, Wang Y H, Zeng W, Zhao L, Han L L. Band structure and near infrared quantum cutting investigation of GdF3:Yb3+,Ln3+(Ln=Ho, Tm, Er, Pr, Tb)nanoparticles. Phys. Chem. Chem. Phys., 2013, 15:14295.,2013.
[10] Zhou J J, Teng Y, Lin G, Qiu J R. Ultraviolet to near-infrared spectral modification in Ce3+ and Yb3+ codoped phosphate glasses. J. Non-Cryst. Solids, 2011, 357:2336.,2011.
[11] Wu L Y, Tian X N, Wei X T, Chen Y H, Yin M. Photoluminescence studies of Eu2+-Yb3+ co-doped BaMgAl10O17 phosphor synthesized by the combustion method. J. Rare Earths, 2012, 30(12):1213.,2012.
[12] Teng Y, Zhou J J, Liu X F, Ye Song, Qiu J R. Efficient broadband near-infrared quantum cutting for solar cells. Opt. Express, 2010, 18(9):9671.,2010.
[13] Ye S, Zhou J J, Wang S T, Hu R X, Wang D P, Qiu J R. Broadband downshifting luminescence in Cr3+-Yb3+ co-doped garnet for efficient photovoltaic generation. Opt. Express, 2013, 21(4):4167.,2013.
[14] Huang X Y, Zhang Q Y. Near-infrared quantum cutting via cooperative energy transfer in Gd2O3:Bi3+,Yb3+phosphors. J. Appl. Phys., 2010, 107:063505.,2010.
[15] Ye S, Jiang N, He F, Liu X F, Zhu B, Teng Y, Qiu J R. Intense near-infrared emission from ZnO-LiYbO2 hybrid phophors through efficient energy transfer from ZnO to Yb3+. Opt. Express, 2010, 18(2):639.,2010.
[16] Zhang Q Y, Yang G F, Jiang Z H. Cooperative downcon-version in GdAl3(BO3)4:RE3+, Yb3+(RE=Pr, Tb, and Tm). Appl. Phys. Lett., 2007, 91:051903.,2007.
[17] Ye S, Zhu B, Zhuang Y X, Liu X F, Wang L, Qiu J R. Spectral modification and quantum cutting in RE3+-Yb3+(R=Pr, Tm, and Tb)codoped transparent glass-ceramics containing CaF2 nanocrystals. Mater. Sci. Eng., 2009, 1:012008.,2009.
[18] Ye S, Zhu B, Chen J X, Luo J, Qiu J R. Energy transfer between silicon-oxygen-related defects and Yb3+in trans-parent glass ceramics containing Ba2TiSi2O8 nanocrystals. Appl. Phys. Lett., 2008, 92:141112.,2008.
[19] Ye S, Zhu B, Luo J, Chen J X, Lakshminarayana G, Qiu J R. Enhanced cooperative quantum cutting in Tm3+-Yb3+co-doped glass ceramics containing LaF3 nanocrystals. Opt. Express, 2008, 16:8989.,2008.
[20] Ye S, Zhu B, Chen J X, Luo J, Qiu J R. Infrared quantum cutting in Tb3+, Yb3+ codoped transparent glass ceramics containing CaF2 nanocrystals. Appl. Phys. Lett., 2008, 92:141112.,2008.
[21] Zhang C, Zhao S L, Deng D G, Huang L H, Tian Y, Xu S Q. Influence of LaF3 on the crystallization and lumines-cence of Eu3+-doped oxyfluoride glass ceramics. Ceram. Int., 2014, 40:2737.,2014.
[22] Zhao S L, Xu S Q, Jia G H, Deng D G, Huang L H, Wang H P. Er3+/Yb3+codoped oxyfluoride borosilicate glass ce-ramic containing NaYF4 nanocrystals for amorphous sili-con solar cells. Mater. Lett., 2011, 65:2407.,2011.
[23] Chen D Q, Wang Y S, Yu Y L, Huang P, Weng F Y. Near-infrared quantum cutting in transparent nanostruc-tured glass ceramics. Opt. Lett., 2008, 33:1884.,2008.
[24] Richman I. Longitudinal optical phonons in CaF2, SrF2, BaF2. J. Chem. Phys., 1964, 41:2836.,1964.
[25] Lakshminarayana G, Yang H C, Ye S, Liu Y, Qiu J R. Cooperative downconversion luminescence in Pr3+/Yb3+:SiO2-Al2O3-BaF2-GdF3 glasses. J. Mater. Res., 2008, 23:3090.,2008.
[26] Ye S, Katayama Y, Tanabe S. Down conversion luminescence of Tb3+-Yb3+ codoped SrF2 precipitated glass ceramics. J. Non-Cryst. Solids, 2011, 357:2268.,2011.
[27] Terra I A A, Borrero-Gonzalez L J, Figueredo T R, Almeida J M P, Hernandes A C, Nunes L A O, Malta O L. Down-conversion process in Tb3+-Yb3+ co-doped Calibo glasses. J. Lumin., 2012, 132:1678.,2012.
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%