期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 883, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2021.161024
关键词
Ferroelectrics; Up-conversion luminescence; Luminescence modulation; Photochromism
资金
- National Natural Science Foundation of China [51772326]
- Graduate Research Innovation Program of Tianjin [2020YJSS163]
- Undergraduate Training Programs for Innovation and Entrepreneurship of Tianjin [202010059067]
This study introduced a smart phosphor material that can reversibly regulate up-conversion luminescence under visible light irradiation, causing coloration and decoloration processes. The intensity of luminescence can be altered by alternating light irradiation and heating treatment, while polarization treatment can enhance the contrast of up-conversion luminescence.
The various applications of luminescence materials were generally based on the effective modulation of luminescence spectra. However, the research on reversible spectral regulation of up-conversion (UC) luminescence materials was still in its infancy stage. In this work, a class of smart phosphor, Er3+ and Yb3+-codoped SrBi8Ti7O27 (SBYT: xEr(3+)) intergrowth bismuth layer-structured ferroelectric, possessing fast sensitivity to visible light irradiation, was reported based on visible light driven photochromic effect. Through the alternate stimuli of light irradiation and heating treatment, the reversible regulation of UC luminescence was achieved accompanying with the switching of coloration and decoloration processes. The luminescence modulation degree tightly relied on the irradiation time and thermal treatment modes. The reversibility and stability properties were also revealed. Moreover, it is found that polarization treatment was an effective approach which can be adopted to improve the UC luminescence contrast. The maximum luminescence modulation ability of SBYT: xEr(3+) reached up to 81.3% which was 131% of that un-polarized sample. It is believed that SBYT: xEr(3+) ceramics can act as a promising candidate for optical data storage and anti-counterfeiting applications. (C) 2021 Elsevier B.V. All rights reserved.
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