A near UV-excited abnormal broad yellow emission phosphor Ba2CaB2Si4O14:Eu2+ for white-light LEDs

A near UV-excited abnormal broad yellow emission phosphor Ba2CaB2Si4O14:Eu2+ for white-light LEDs

•Ba2CaB2Si4O14:Eu2+ has a wide coverage and is in the abnormal red light region.•In combination with blue phosphor, it improves the quality of synthetic white light to a certain extent.•It has great potential in the preparation of near UV excited white LEDs. Phosphor-converted white LEDs are realize...

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 885; p. 160958
Main Authors: Fan, Pu, Xu, Zefeng, Luo, Qi, He, Zongjie, Chen, Yuhui, Miao, Qiqi, Huang, Cong, Liu, Xiaoguang, Li, Ling
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 10-12-2021
Elsevier BV
Subjects:
Broadband
Chromaticity
Color temperature
Europium
High temperature
Light emitting diodes
Near ultraviolet
Phosphor
Phosphors
Photoluminescence
Synthesis
Ultraviolet radiation
White LEDs
White light
Broadband
Near ultraviolet
Phosphor
Photoluminescence
White LEDs
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Summary:•Ba2CaB2Si4O14:Eu2+ has a wide coverage and is in the abnormal red light region.•In combination with blue phosphor, it improves the quality of synthetic white light to a certain extent.•It has great potential in the preparation of near UV excited white LEDs. Phosphor-converted white LEDs are realized by combining blue InGaN chips with yellow and red emitting materials. Due to the lack of efficient red phosphor materials, we can design a broadband yellow phosphor material containing as many red components as possible. We found an abnormal broadband yellow-emitting Ba2CaB2Si4O14:Eu2+ borosilicate phosphor inspired by natural minerals, which has been synthesized by traditional high temperature solid-state method. The structural information and photoluminescence characteristics of Ba2CaB2Si4O14:Eu2+ were characterized in detail, and applied to the fabrication of white LED devices. Excited by near ultraviolet light at 365 nm, it displays a wide emission band from 400 to 800 nm centered on the 595 nm peak. White LED devices were fabricated by physically mixing the yellow phosphor Ba2CaB2Si4O14:Eu2+ and synthesized blue phosphor BaMgAl10O17:Eu2+ with 365 nm UV chip as excitation. The correlation color temperature (CCT) value and the chromaticity coordinates of the fabricated WLED devices were found to be 5522 K and (0.3293, 0.3036) respectively. In conclusion, Ba2CaB2Si4O14:Eu2+ has great potential in the preparation of near UV excited white LEDs.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2021.160958