Optimization of light efficacy and angular color uniformity by hybrid phosphor particle size for white light-emitting diode

Dong-Chuan Chen^1,2，Zhu-Guang Liu²，Zhong-Hua Deng²，Chong Wang²，Yong-Ge Cao^2,3，Quan-Lin Liu¹

1. School of Materials Science & Engineering, University of Science and Technology Beijing2. National Engineering Research Center for Optoelectronic Crystalline Materials, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences3. College of Science, Renmin University of China

摘 要：In this study, small- and large-particle-diameter phosphor powders were mixed together（hybrid phosphors）to balance light efficacy and angular color uniformity and pursue optimal results. Phosphor with small-particlediameter of 4 lm was employed and it was mixed into each large-particle-diameter phosphor of 10, 16, 22, and 26 lm,at mass percentage from 0 % to 50 % with an interval of10 %, respectively. Remote phosphor package was adopted and overall phosphor concentration was kept constant for better comparison. Moreover, absorption coefficient labs,scattering coefficient lscaand extinction coefficient lext of each hybrid phosphors were calculated based on Mie theory to further discuss the experiment results. Results show that, the introduction of small-particle-diameter phosphor to large one can highly improve angular color uniformity while only slightly reduce light efficacy. The optimal performance with angular color uniformity of91.6 % as well as normalized light efficacy of 95.7 % is achieved in the white light emitting diode with hybrid phosphors consisting of 60 wt% powder of 22 lm and40 wt% powder of 4 lm.

关键词：