Abstract
A low sintering temperature glass based on B2O3–Na2O–Al2O3 system was studied as a matrix for embedding phosphors to fabricate color tunable white LEDs. Red-emitting-phosphor-in-glass (R−PiG) was prepared by co-sintering glass frits and CaAlSiN3:Eu2+ (CASN:Eu2+) phosphors at 480 °C. Then, Y3Al5O12:Ce3+ (YAG:Ce3+) yellow phosphors were added to obtain white light. The white LEDs by YAG&CASN-based PiG and 450 nm LED chip with correlated color temperature (CCT) of 3000 K–5700 K were successfully fabricated by tuning the ratio of glass to phosphors, the proportion of two phosphors, and the thickness of PiG. The fabricated wLEDs all have a color rendering index (CRI) above 70, with a maximal luminous efficacy of 84.5 lm/W. Furthermore, this study observed a great 51 nm redshift of emission spectrum by doping 1–2 wt% CASN:Eu2+, which inspires a practical manufacturing method to obtain high-power light sources with better CRI at a lower cost.
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