In 2008, Nishiura et al. reported that the Ce:YAG transparent ceramics are suitable for white LED. Since then, Ce:YAG transparent ceramics have been extensively studied. However, the photoluminescence (PL) spectra of Ce:YAG transparent ceramics lacks red component, resulting in a highly correlated color temperature (CCT) and a low color-rendering index.
Recently, a research team from Shanghai Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences, for the first time, successfully prepared the composite Al2O3-YMASG ceramic phosphors by a vacuum sintering technique. The study was published in Optics Letters.
In previous research, the researchers tried to dope Mg2+-Si4+ pairs in Ce:YAG ceramic phosphors, but found that its luminous efficiency was low (36 lm/W). Therefore, they introduced the Al2O3 as second phase to improve the luminous efficiency.
The results showed that, with the nominal composition of 10 wt% Al2O3, the impurity phase Y4MgSi3O13 associated with higher doping concentration of Mg2+-Si4+ co-doped in Ce:YAG disappeared, and with the nominal composition of 30 wt% -50 wt% Al2O3, the composite Al2O3-YMASG ceramic phosphors was obtained.
Furthermore, the researchers found that the emission wavelength of Ce3+ could be adjusted from 610 to 552 nm through changing the weight ratio of Al2O3 from 0 wt% to 30 wt%, which presents an easy method to modify the emission wavelength of Ce:YMASG.
That the luminous efficacy of samples increases from 35 lm/W to 63 lm/W with the weight ratio increase of Al2O3 from 0 to 30 wt% indicates that the introduction of Al2O3 can effectively improve the luminous efficacy and may contribute to Ce:YAG’s application in door and medical lighting.
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