Ce3+–Eu2+ Co-doped BaCa13Mg2(SiO4)8 cyan phosphor—ultra-high energy transfer efficiency for white light emitting diodes†
Abstract
The energy transfer of Ce3+–Eu2+ can often greatly increase the luminescence efficiency and expand the scope of application. In this study, blue to cyan color-tunable phosphors BaCa13Mg2(SiO4)8:Ce3+,Eu2+ were prepared. BaCa13Mg2(SiO4)8:Eu2+ cyan phosphors have limited applications in WLEDs because of their disadvantages, including the inadequate luminescence performance and imperfect matching of UV chips. Therefore, Ce3+ ions were used as sensitizers to enhance the optical performance of Eu2+ ions. The energy transfer efficiency between Ce3+ and Eu2+ in the BaCa13Mg2(SiO4)8 host was calculated to be 96.7%, and the incorporation of Ce3+ ions boosted the integrated intensity and quantum efficiency of the emission spectrum by approximately 80% and 20%, respectively. At 140 °C, the integral emission intensities could still keep at 81.5% of the initial integral intensities at 25 °C. The Ce3+, Eu2+ co-doped cyan phosphor-based WLED lamp could produce outstanding warm white light with CIE coordinates of (0.3722, 0.3222), demonstrating the enormous potential for WLED applications.