基于K(Sr1-x-y)PO4:Tb3+x Eu2+y体系在紫外激发下对高热稳定性绿色和蓝色荧光粉的组合搜索。

Combinatorial search for green and blue phosphors of high thermal stabilities under UV excitation based on the K(Sr1-x-y)PO4:Tb3+ xEu2+y system.

作者信息

Chan Ting-Shan, Liu Yao-Min, Liu Ru-Shi

机构信息

Department of Chemistry, National Taiwan University, Taipei 106, Taiwan.

出版信息

J Comb Chem. 2008 Nov-Dec;10(6):847-50. doi: 10.1021/cc800060x. Epub 2008 Aug 5.

DOI:10.1021/cc800060x

PMID:18680347

Abstract

The present investigation aims at the synthesis of KSr 1-x-y PO 4:Tb(3+) x Eu(2+) y phosphors using the combinatorial chemistry method. We have developed square-type arrays consisting of 121 compositions to investigate the optimum composition and luminescence properties of KSrPO 4 host matrix under 365 nm ultraviolet (UV) light. The optimized compositions of phosphors were found to be KSr 0.93PO 4:Tb(3+) 0.07 (green) and KSr 0.995PO 4:Eu(2+) 0.005 (blue). These phosphors showed good thermal luminescence stability better than commercially available YAG:Ce at temperature above 200 degrees C. The result indicates that the KSr 1-x-y PO 4:Tb(3+) x Eu (2+)y can be potentially useful as a UV radiation-converting phosphor for light-emitting diodes.

摘要

本研究旨在采用组合化学方法合成KSr₁₋ₓ₋ᵧPO₄:Tb(³⁺)ₓEu(²⁺)ᵧ荧光粉。我们制备了由121种成分组成的方形阵列，以研究KSrPO₄基质在365 nm紫外光下的最佳成分和发光特性。发现荧光粉的优化成分是KSr₀.₉₃PO₄:Tb(³⁺)₀.₀₇（绿色）和KSr₀.₉₉₅PO₄:Eu(²⁺)₀.₀₀₅（蓝色）。在温度高于200℃时，这些荧光粉表现出比市售YAG:Ce更好的热发光稳定性。结果表明，KSr₁₋ₓ₋ᵧPO₄:Tb(³⁺)ₓEu(²⁺)ᵧ有潜力用作发光二极管的紫外光转换荧光粉。

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基于K(Sr1-x-y)PO4:Tb3+x Eu2+y体系在紫外激发下对高热稳定性绿色和蓝色荧光粉的组合搜索。

Combinatorial search for green and blue phosphors of high thermal stabilities under UV excitation based on the K(Sr1-x-y)PO4:Tb3+ xEu2+y system.

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