1. Synthesis and photoluminescence properties of novel thermally robust Na3GdP2O8: Re3+ (Re = Sm, Dy) phosphors.
- Author
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Xie, Meiling, Min, Xin, Huang, Zhaohui, Liu, Yan'gai, Wu, Xiaowen, and Fang, Minghao
- Subjects
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PHOSPHORS , *PHOTOLUMINESCENCE , *LIGHT emitting diodes , *ULTRAVIOLET radiation , *THERMAL stability , *RARE earth metals - Abstract
Graphical abstract Na 3 GdP 2 O 8 : Sm3+ and Na 3 GdP 2 O 8 : Dy3+ phosphors were successfully prepared and emitted orange-red and white light under UV/NUV excitation, respectively. The excellent thermal stability further indicated that these phosphors have great potential for applications in UV/NUV excited w-LEDs. Highlights • The novel Sm3+ and Dy3+ ions doped Na 3 GdP 2 O 8 phosphors were prepared. • Both orange-red and white lights could obtain with excellent thermal stability. • These phosphors are potential for application in UV/NUV based w-LEDs. Abstract With the rapid demand of white light emitting diodes (w-LEDs), studies on the ultraviolet/near-ultraviolet (UV/NUV) light excited phosphors are becoming more and more important. Herein the novel Na 3 GdP 2 O 8 : Re3+ (Re = Sm, Dy) phosphors were synthesized through a high-temperature solid-state reaction method. The Sm3+-doped Na 3 GdP 2 O 8 phosphors emitted orange-red light centered at 600 nm, under the NUV excitation at 403 nm. When excited at 350 nm, the Na 3 GdP 2 O 8 : Dy3+ phosphors presented a white light emission, including three peaks at 483, 578, and 670 nm, respectively. In addition, both of the Na 3 GdP 2 O 8 : Sm3+ and Na 3 GdP 2 O 8 : Dy3+ phosphors showed excellent thermal stability at different temperatures, of which the emission intensities at 150 °C could maintain about 75% and 79% of those at room temperature, respectively. These results indicate that the as-prepared phosphors can be considered as potential candidates for applications in UV/NUV excited w-LEDs. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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