Home > Archive>Volume 15, Issue 3, 2019 >195-199. DOI:https://doi.org/10.1007/s11801-019-8150-1
PDF HTML XML Export Cite reminder
Enhancement of the up-conversion luminescence of ZnO:Yb3+/Er3+ by photonic crystals
CSTR:
[cstr]
Author:
Affiliation:

1. School of Science, Tianjin Polytechnic University, Tianjin 300387, China;2.Physics Department, Tianjin University Renai College, Tianjin 300072, China

  • Article
    • | |
  • Metrics
    • |
  • Reference [30]
    • |
  • Related [20]
    • |
  • Cited by
    • | |
  • Comments
    Abstract:

    The opal photonic crystals (PCs) were assembled by vertical deposition of polystyrene microspheres (PS), in which Yb3+, Er3+ co-doped ZnO powders were deposited on the surface of PC films. The phase, structure and morphology of the obtained samples were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscope (TEM). The performance of up-conversion photoluminescence (UCPL) was investigated by fluorescence spectrophotometer. The up-conversion (UC) emission of ZnO:Yb3+/Er3+on the PC surface is notably enhanced when the UC emission wavelength is overlapped with the photonic bandgaps of opals, which is attributed to Bragg reflection of photonic bandgap. The results show that PCs may have potential applications in the enhancement of UCPL and optoelectronic devices.

    Reference
    [2] W. Zou, C. Visser, J.A. Maduro, M.S. Pshenichnikov and J.C. Hummelen, Nature Photonics 6, 560 (2012).
    [3] X.Y. Huang, S.Y. Han, W. Huang and X.G. Liu, Chemical Society Reviews 42, 173 (2013).
    [4] M. Mondal, V.K. Rai and C. Srivastava, Chem.Eng. J. 327, 838 (2017).
    [5] C.Y. Liu, Z.Y. Gao, J.F. Zeng, Y. Hou, F. Fang, Y.L. Li, R.R. Qiao, L. Shen, H. Lei, W.S. Yang and M.Y. Gao, ACS Nano 7, 7227 (2013).
    [6] J. Wang, R. Deng, M.A. MacDonald, B. Chen, J. Yuan, F. Wang, D. Chi, T.S. Hor, P. Zhang, G. Liu, Y. Han and X. Liu, Nature Materials 13, 157 (2014).
    [7] Dong H, Sun L-D and Yan C-H, Nanoscale 5, 5703 (2013).
    [8] Chen C, Li C and Shi Z, Advanced Science 3, 1600029 (2016).
    [9] Haase M and Schafer H, Angewandte Chemie International Edition 50, 5808 (2011).
    [10] R.S. Yadav, S.J. Dhoble and S.B. Rai, Sensors and Actuators:B. Chemical 273, 1425 (2018).
    [11] Yu X, Liang S, Sun Z, Duan Y, Qin Y, Duan L, Xia H, Zhao P and Li D, Optics Communications 313, 90 (2014).
    [12] Bai Y, Wang Y, Yang K, Zhang X, Song Y and Wang CH, Optics Communications 281, 5448 (2008).
    [13] M. B. Mohamed, V. Volkov, S. Link and M. A. El-Sayed, Chemical Physics Letters 317, 517 (2000).
    [14] M. Saboktakin, X. Ye, S. Oh, S. Hong, A. T. Fafaeman, U. K. Chettiar, N. Engheta, C. B. Murry and C. Kagan, ACS Nano 6, 8758 (2012).
    [15] Chai, Z., Yang Z. and Qiu J., Ceramics International 04, 218 (2018).
    [16] X. Zhu, J. Zhou, M. Chen, M. Shi, W. Feng and F. Li, Biomaterials 33, 4618 (2012).
    [17] Wei Deng, L Sudheendra, Jiangbo Zhao, Junxiang Fu, Dayong Jin, Ian M Kennedy and Ewa M Goldys. Nanotechnology 22, 325604 (2011).
    [18] Anjana R, Subha P P, Kurias M K and Jayaraj M. K., Methods and Applications in Fluorescence 6, 015005 (2017).
    [19] Z. W. Yang, K. Zhu, Z. G. Song, D. C. Zhou, Z. Y. Yin and J. B. Qiu, Applied Optics 50, 287 (2011).
    [20] D. Yan, J. L. Zhu, H. J. Wu, Z. W. Yang, J. B. Qiu, Z. G. Song, X. Yu, Y. Yang, Z. Y. Yin and R. F. Wang, Journal of Materials Chemistry 22, 18558 (2012).
    [21] Z. W. Yang, K. Zhu, Z. G. Song, D. C. Zhou, Z. Y. Yin and J. B. Qiu, Applied Optics 50, 287 (2011).
    [22] C. Yablonvitch, Physical Review Letters 58, 2059 (1987).
    [23] Y. Zhu, Y. Jia, Q. Chen and C. Wang, Journal of Luminescence 194, 420 (2018).
    [24] X. Chen, S. Yang, Y.C. Zheng, Y. Chen, Y. Hou, X.H. Yang and H.G. Yang, Advanced Science 2, 1500105 (2015).
    [25] Arandiyan, H., Dai, H., Deng, J., Liu, Y., Bai, B., Wang, Y., Li, X., Xie, S. and Li, J., Journal of Catalysis 307, 327 (2013).
    [26] M. C. Gon?alves, L. M. Fortes, R. M. Almeida, A. Chiasera, A. Chiappini, M. Ferrari and S. Bhaktha, Journal of Sol-Gel Science and Technology 55, 52 (2010).
    [27] R. A. L. Vallée, B. Kolaric, K. Baert, M. van der Auweraer and K. Clays, Physical Review B 76, 045113 (2007).
    [28] X. Zhang, H. Zhang, L. Wei, Y. Zhang and B. Zhang, Journal of Materials Science:Materials in Electronics 29, 15060 (2018).
    [29] Z. Yang, J. Zhou, X. Huang, Q. Xie, M. Fu, B. Li and L. Li, Journal of Alloys and Compounds 471, 241 (2009).
    [30] Jia-yan Liao, Zheng-wen Yang, Hang-jun Wu, Dong Yan and Jian-bei Qiu, Journal of Materials Chemistry C 1, 6541 (2013).
    [31] N. Rakov, R.B. Guimar?es and G.S. Maciel, Journal of Luminescence 131, 342 (2011).
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

ZHANG Xiao-hui, ZHANG Hai-ming, LI Yu-Jie. Enhancement of the up-conversion luminescence of ZnO:Yb3+/Er3+ by photonic crystals[J]. Optoelectronics Letters,2019,15(3):195-199

Copy
Share
Article Metrics
  • Abstract:862
  • PDF: 0
  • HTML: 0
  • Cited by: 0
History
  • Received:September 18,2018
  • Revised:November 02,2018
  • Online: May 01,2020
Article QR Code
Phone:86-22-60214471
URL:http://www.oelett.com E-mail:oel@263.net
Supported by:Beijing E-Tiller Technology Development Co., Ltd.
® 2025 All Rights Reserved