期刊
JOURNAL OF MATERIALS CHEMISTRY C
卷 8, 期 46, 页码 16427-16435出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0tc04231e
关键词
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资金
- National Natural Science Foundation of China [61975070, 51902143, 61971207, 61775088]
- Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD)
- Key Research and Development Project of Jiangsu Province [BE2018062, BE2019033]
- Natural Science foundation of Jiangsu Province [BK20191467]
- Postgraduate Research AMP
- Practice Innovation Program of Jiangsu Province [KYCX18_2096, KYCX18_2097, KYCX18_2098, KYCX18_2099]
- International SAMP
- T Cooperation Program of Jiangsu Province [BZ2019063, BZ2020045, BZ2020030]
- Special Project for Technology Innovation of Xuzhou City [KC19250, KC20201, KC20244]
Transparent ceramics (TCs) with high quantum efficiency and excellent thermal stability are essential for the applications in high-power remote excitation white light-emitting diode or laser diode (LED/LD) lighting devices as color convertors. In this study, based on the local complexity of Ce3+ ion coordination environment effect and effective ionic radius match effect, an effective regulation of the phase composition and spectral properties was realized in LuAG TCs by incorporating Y3+ and Sc3+ ions. A series of Ce:(Lu,Y)(3)(Al,Sc)(2)Al3O12 (Ce:LuYSAG) TCs were fabricated with a high internal quantum efficiency (IQE) of 86.7%. The prepared TCs exhibited a distinct red-shift (520 -> 541 nm) and a 10.2% increase of full width at half maximum (FWHM) in the emission spectra. Surprisingly, 89.9% of the room temperature emission intensity of the TC was retained at 200 degrees C. By combining the Ce:LuYSAG TCs with a 460 nm blue chip or a 455 nm laser source, white LED/LD devices in a remote excitation mode were constructed. A tunable hue from cyan-green to pale-green was obtained with increasing Y3+ concentration of TCs. The surface temperature of TCs varied from 112.6 degrees C to 62 degrees C under 1.0 W LD irradiation. Upon increasing the power of the blue laser from 1.0 W to 3.5 W, the luminous flux (LF) of the TC with 30 at% Sc3+ and 50 at% Y3+ ions substitution tremendously increased from 250.9 lm to 877.4 lm, and the optimized luminous efficiency of radiation (LER) was as high as 251 lm W-1. Therefore, this work opens up new opportunities for the development of TCs with excellent luminescence performance through manipulation of their local coordination structure for high-power white LEDs/LDs.
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