荧光粉
二极管
白光
发光二极管
材料科学
光电子学
紫外线
分析化学(期刊)
化学
色谱法
作者
Feiyan Xie,Junqiang Gu,Jie Zhang,Yintong Chen,Rong Yin,Junhao Li
标识
DOI:10.1021/acs.cgd.5c00508
摘要
Due to the lack of red light, currently available commercial phosphor-converted white light-emitting diodes (pc-WLEDs) have a poor color rendering index. In order to improve the color rendering performance of pc-WLEDs, it is urgent to develop satisfactory bright red emission phosphors. Herein, we reported a bright red luminescent Na 5 Lu(WO 4 ) 4:Sm 3+ phosphor. By studying the effect of Sm 3+ doping concentration on luminescence performance, it was found that the concentration quenching effect was attributed to the dipole–dipole interaction. The quantum yield, color purity, and CIE coordinates of the optimal Sm 3+ concentration activated Na 5 Lu(WO 4 ) 4:9%Sm 3+ phosphor were 49.37%, 95.12%, and (0.653, 0.346), respectively. Furthermore, the phosphor had strong resistance to thermal quenching, and the luminous intensity at 425 K was only reduced by 10.20% compared with that at 300 K, while maintaining excellent color stability (Δε = 9.27 × 10 –3 ). Finally, we used Na 5 Lu(WO 4 ) 4:9%Sm 3+ phosphor as the red component, and additionally added commercial blue and green phosphors, combined with the 365 nm near-ultraviolet chip to produce a white LED device with a CRI of up to 90.5 and a CCT as low as 4581 K. These results indicated that Na 5 Lu(WO 4 ) 4:Sm 3+ phosphors had broad potential applications in high color rendering index white LEDs excited by near-ultraviolet light.
科研通智能强力驱动
Strongly Powered by AbleSci AI