期刊
CERAMICS INTERNATIONAL
卷 46, 期 13, 页码 21448-21460出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2020.05.243
关键词
Phosphor; Rare earth; Structural refinement; Luminescence; Energy transfer; Defects
资金
- Science and Engineering Research Board (SERB), DST, Government of India [ECR/2017/002210]
Tetragonal structured Sr3AlO4F is highly strained as reported from its global instability index estimation. Moreover, our results of X-ray photoelectron spectroscopy (XPS) also ascertained that the structure of Sr3AlO4F is highly strained with oxygen vacancies. Herein, aliovalent substitutions of divalent Sr ions with trivalent Ln (Ln = Gd/Y) ions were carried out to improve the stability of Sr3AlO4F lattice, which subsequently enhanced the photoluminescence in a series of Sr(2.9-3x/2)Ln(x)AlO(4)F: 0.1Eu(3+) phosphors. All the phosphors showed intense redorange emission (D-5(0) -> F-7(1,2)) at excitation with UV and near-UV light. The critical concentrations of Gd3+ and Y3+ up to which the Eu3+ emission intensities increased linearly were observed to be x = 0.09 and x = 0.07, respectively. Nevertheless, further enhancement in the Eu3+ luminescence of the optimized phosphors was realized by subsequently annealing in low oxygen atmospheres. The enhancement in oxygen deficiency during the post-annealing in Ar or vacuum led the energy transfer (O2--Eu3+) to a greater extent which afterward increased the Eu3+ luminescence. The optimized Sr(2.9-3x/2)Ln(x)AlO(4)F: 0.1Eu(3+) and Sr(2.9-3x/2)Ln(x)AlO(4)F: 0.1Eu(3+) phosphors showed high red color purity (similar to 99%), as well as CIE coordinates of (0.62, 0.38), indicated that these phosphors could be appropriate red-emitting components for making flexible optical films for many lighting devices. Therefore, flexible polydimethylsiloxane based films were also fabricated using optimized Sr(2.9-3x/2)Ln(x)AlO(4)F: 0.1Eu(3+) phosphor. The electroluminescence of a flexible PDMS-phosphor composite film showed an intense and pure red color with good thermal stability suggesting its suitability in flexible lighting and display devices.
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