Journal
OPTICAL MATERIALS
Volume 122, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.optmat.2021.111782
Keywords
BaZn2(PO4)(2) glass-ceramic; Color-tunable; Energy transfer; LEDs
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Funding
- National Natural Science Foundation of China [11675260]
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Color-tunable phosphors were achieved by co-doping Tb3+ and Sm3+ in BaZn2(PO4)(2) glass-ceramic, with the luminescent color changing from green to yellow as the Sm3+ concentration increased. Energy transfer from Tb3+ to Sm3+ was confirmed, with the mechanism being dipole-dipole interaction, and a high thermal stability with potential applications in UV-converted LEDs was demonstrated.
The color-tunable phosphors can be obtained by co-doping strategy and energy transfer regulation. In this work, Tb3+ and Sm3+ co-doped BaZn2(PO4)(2) glass-ceramic (GC) phosphors are prepared and their structural, optical and luminescent properties are characterized. By adjusting the doping concentration of Sm3+, The luminescent color of BaZn2(PO4)(2) GC: Tb3+/Sm3+ Phosphors ranges from green to light green to yellow-green and finally to yellow. The photoluminescence (PL) spectra and fluorescence decay curves confirmed the energy transfer from Tb3+ to Sm3+, and the energy transfer efficiency (eta) increased monotonically with the increase of Sm3+ concentration. Moreover, the energy transfer mechanism from Tb3+ to Sm3+ in BaZn2(PO4)(2) GC is a dipole-dipole interaction. The typical BaZn2(PO4)(2) GC: 0.75 Tb3+/0.75Sm(3+) phosphor has a high thermal stability with an activation energy determined to be 0.29525 eV. Coupling BaZn2(PO4)(2) GC: 0.75 Tb3+/0.75Sm(3+) Phosphors with commercially available ultraviolet light-emitting diodes (UV-LEDs) chips yields luminescent color coordinates of (0.3965, 0.4253) and a color correlation temperature of 3927 K, close to warm white light emission. These results indicated that the Tb3+ and Sm3+ co-doped BaZn2(PO4)2 GC achieved luminescence color modulation, which has potential applications in UV-converted LEDs and other optical devices.
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