Journal
JOURNAL OF NON-CRYSTALLINE SOLIDS
Volume 581, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jnoncrysol.2022.121437
Keywords
Glass-Ceramic; Ca2Ti2O6 crystal phase; Doping Sm3+/Li+; Luminescence
Funding
- Project of Jilin Province Science and Technology Department [20190802014ZG]
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Transparent glass-ceramics doped with Sm3+ were prepared and Ca2Ti2O6 nanocrystals were formed. Under the optimal heat treatment condition, the glass-ceramics had small grain size and high light transmittance. Additionally, the highest luminescence intensity was observed at a Sm3+ doping concentration of 0.5%.
The Sm3+ doped transparent glass-ceramics were prepared by the melt crystallization method. Using the device of X-ray diffraction (XRD) can confirm Ca2Ti2O6 nanocrystals were formed among the precursor glass matrix. Under the optimum heat treatment condition (680 degrees C/90 min), the average grain size in the glass-ceramic is about 103 nm, and the light transmittance in the visible region can reach 78%. Under 402 nm excitation, the emission spectra show strong emission peaks at 564 nm, 600 nm and 647 nm, corresponding to the (4)G(5/2)-> H-6(J) (J = 5/2, 7/2, 9/2) characteristic transitions of Sm3+. The optimal doping concentration of Sm3+ is 0.5%, and the concentration quenching caused by exchange interaction will occur if it exceeds this value. The introduction of Li+ into glass-ceramics will not change the crystal phase and can enhance the luminescent intensity. The chromaticity coordinates of 4%Li+-0.5%Sm3+ co-doped glass-ceramic are located in orange region (0.5506, 0.4456), and the color purity can reach 95.4%. The results show that the glass-ceramics have potential applications in solid-state color rendering.
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