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1. Ca8Mg7Si9N22:Ce3+—A Yellow-Emitting Nitride Phosphor for White Light Emitting Diodes

Author

Xiaoming Wang, Huan Jiao, Chao Li, and Zupei Yang

Subjects

Photoluminescence, Materials science, business.industry, Phosphor, Color temperature, Electronic, Optical and Magnetic Materials, Materials Chemistry, Electrochemistry, White light, Optoelectronics, Chromaticity, business, Nitride phosphor, Excitation, Diode

Abstract

Nitridomagnesosilicate phosphors are promising candidates for white light emitting diodes. Here, we report a yellow nitride phosphor Ca8Mg7Si9N22:Ce3+, which exhibits a broad band emission in the spectral range of 475–675 nm under the excitation of 445 nm. The photoluminescence intensity of Ca8–xMg7Si9N22:xCe3+ (0.01 ≤ x ≤ 0.11) reaches a maximum when x = 0.05. CIE coordinates and the color purity of Ca7.95Mg7Si9N22:0.05Ce3+ are (0.449, 0.531) and 84.0%, respectively. The Ca7.95Mg7Si9N22:0.05Ce3+ phosphor exhibits a good color drifting resistance with a maximum chromaticity shift of 0.0085 at 475 K. By combining the as-synthesized yellow nitride phosphor Ca7.95Mg7Si9N22:0.05Ce3+ and red nitride phosphor SrLiAl3N4:Eu2+ with a commercial blue InGaN chip, an all-nitride white light emitting diode device is fabricated, and a warm white light is generated with chromatic coordinates (0.471, 0.364) and color temperature of 2194 K.

Published

2020