Nano Particle Phosphor Formation and Luminescent Characteristic of Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) Synthesized by Liquid Phase Precursor Methods

Woo-Jung Park; Young-Hyun Song; Ji-Wook Moon; Takaki Masaki; Seong-Jae Im; Dae-Ho Yoon

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Nano Particle Phosphor Formation and Luminescent Characteristic of Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) Synthesized by Liquid Phase Precursor Methods

机译：液相前驱体法合成Ca_（1-x）Mg_xAl_（12）O_（19）：Mn〜（4+）的纳米粒子荧光体形成及发光特性

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The Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) compounds were prepared by liquid phase precursor (LPP) methods for use in white light emitting diodes (LEDs) based on nano red phosphor. The effect of adding Mg element on the relative emission characteristics of Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) is discussed in terms of the charge compensation effect. The LPP synthesis, the relative emission intensity of Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) containing ratio of 0.05 MgO was approximately 70% higher than that of the LPP synthesized Ca_(1-x)Mg_xAl_(12)o_(19):Mn~(4+) red phosphor. These results indicate that the use of an appropriate LPP synthesis improve excellence the luminescent efficiency, particularly for the samples prepared with the optimized firing temperature of 1450℃ for 1 hour.

机译：通过液相前驱体（LPP）方法制备Ca_（1-x）Mg_xAl_（12）O_（19）：Mn〜（4+）化合物，用于基于纳米红色荧光粉的白色发光二极管（LED）。从电荷补偿效应的角度讨论了添加Mg元素对Ca_（1-x）Mg_xAl_（12）O_（19）：Mn〜（4+）的相对发射特性的影响。 LPP合成的Ca_（1-x）Mg_xAl_（12）O_（19）：Mn〜（4+）的相对发射强度为0.05 MgO，比LPP合成的Ca_（1- x）Mg_xAl_（12）o_（19）：Mn〜（4+）红色荧光粉。这些结果表明，使用合适的LPP合成方法可以改善发光效率，特别是对于以1450℃的最佳烧成温度进行1小时制备的样品。

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《Journal of nanoscience and nanotechnology》 |2009年第12期|共4页
作者
Woo-Jung Park; Young-Hyun Song; Ji-Wook Moon; Takaki Masaki; Seong-Jae Im; Dae-Ho Yoon;
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正文语种 eng
中图分类特种结构材料;
关键词
Liquid Phase Precursor (LPP) Process; Luminescence Properties; Nano Particles Formation; Mn~(4+) Ion Transition;

机译：液相前驱（LPP）工艺;发光性能;纳米粒子形成;Mn〜（4+）离子转变;

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Nano Particle Phosphor Formation and Luminescent Characteristic of Ca_(1-x)Mg_xAl_(12)O_(19):Mn~(4+) Synthesized by Liquid Phase Precursor Methods

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