2017
DOI: 10.1002/crat.201700056
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Influence of Ce ion Concentration on Fluorescence Properties of Ce:TAG‐Al2O3 Eutectic Mixed Crystals

Abstract: Combining a blue LED chip with phosphor, white light can be obtained. In traditional white LEDs, the phosphor was dispersed in resin in a form of particles. Particle‐resin composite has complex packaging and poor thermal stability. For high‐power white LEDs, this combination cannot provide long‐term stable work because of photo‐degradation of the organic epoxy resin under high irradiation and high temperatures. Here we develop resin‐free phosphor (Tb1‐nCen)3Al5O12‐Al2O3 eutectic mixed crystals (Ce:TAG‐Al2O3) t… Show more

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Cited by 15 publications
(3 citation statements)
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“…The maximum S values of ~0.0089/K (for x = 0.005) and ~0.0096/K (for x = 0.01) are obtained at ~540 K. For comparison, the optical temperature sensing properties of the RE 3+ ‐doped materials, including ceramics, glasses, phosphors, and nanophosphors, are demonstrated in Figure . It is noteworthy that the x Ho‐KNNST transparent ceramics (especially x = 0.01) own rather high value of sensitivity, which is higher than other RE 3+ ‐doped ferroelectric ceramics and most of other RE 3+ ‐doped/codoped nonferroelectric materials, exhibiting great potential in the field of FIR‐based optical temperature sensors. The high optical transmittances, easy‐modulated up‐conversion PL, and outstanding optical temperature sensitivity enable the x Ho‐KNNST transparent ceramics to be superior multifunctional materials.…”
Section: Resultsmentioning
confidence: 97%
“…The maximum S values of ~0.0089/K (for x = 0.005) and ~0.0096/K (for x = 0.01) are obtained at ~540 K. For comparison, the optical temperature sensing properties of the RE 3+ ‐doped materials, including ceramics, glasses, phosphors, and nanophosphors, are demonstrated in Figure . It is noteworthy that the x Ho‐KNNST transparent ceramics (especially x = 0.01) own rather high value of sensitivity, which is higher than other RE 3+ ‐doped ferroelectric ceramics and most of other RE 3+ ‐doped/codoped nonferroelectric materials, exhibiting great potential in the field of FIR‐based optical temperature sensors. The high optical transmittances, easy‐modulated up‐conversion PL, and outstanding optical temperature sensitivity enable the x Ho‐KNNST transparent ceramics to be superior multifunctional materials.…”
Section: Resultsmentioning
confidence: 97%
“…The results are consistent with the XRD analysis. In addition, vacancies in the dielectric ceramics can influence T c ; for instance, T c decreases after the introduction of V c . , Hence, compared with the ceramics with y = 0, Ba, and Ca, the V c concentrations of ceramics with y = Ti and y = Zr are higher and the effect on reducing T c is dominant.…”
Section: Results and Discussionmentioning
confidence: 99%
“…In the development of holographic volume storage, the storage media plays an important role in determining storage capacity and density. In the past few decades, more and more dielectric materials have been applied to holographic volume storage, such as Bi 12 SiO 20 , BaTiO 3 , and LiNbO 3 .…”
Section: Introductionmentioning
confidence: 99%