Synthesis of nano-sized Yb_3Al_5O_12 powders by the urea co-precipitation method

Yusong Wu; Jiang Li; Yubai Pan

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Synthesis of nano-sized Yb_3Al_5O_12 powders by the urea co-precipitation method

机译：尿素共沉淀法合成Yb_3Al_5O_12纳米粉体

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Nano-sized polycrystalline ytterbium aluminum garnet (YbAG, Yb_3Al_5O_12) powders were successfully synthesized by a simple urea coprecipitation method. The thermal behavior of the YbAG precursor was investigated. The calcined amorphous YbAG precursor was directly converted to 20-30 nm monophase YbAG at as low as temperature 900 deg, without any other intermediate phases. The nano-sized YbAG powders calcined at 900 deg distributed evenly with a slight aggregation, and the specific surface area of the powders reached 29.7 m~2g~-1. The absorption spectrum of the YbAG powders was measured, and there were two strong absorption peaks centered at 931 and 965 nm. The results did not correspond to the absorption peaks of Yb:YAG crystal exactly, as the lattice parameters were different between YbAG and YAG.

机译：采用简单的尿素共沉淀法成功合成了纳米级多晶crystalline铝石榴石（YbAG，Yb_3Al_5O_12）粉末。研究了YbAG前体的热行为。煅烧的无定形YbAG前驱体可在低至900度的温度下直接转化为20-30 nm单相YbAG，没有任何其他中间相。经900度煅烧的纳米YbAG粉体分布均匀，微团聚，比表面积达到29.7 m〜2g〜-1。测量了YbAG粉末的吸收光谱，并且存在两个集中在931和965nm处的强吸收峰。结果与Yb：YAG晶体的吸收峰不完全对应，因为YbAG和YAG的晶格参数不同。

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《CERAMICS INTERNATIONAL》 |2009年第1期|共3页
作者
Yusong Wu; Jiang Li; Yubai Pan;
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正文语种 eng
中图分类硅酸盐工业;
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B. Naonocomposites; C. Thermal properties; C. Optical properties;

机译：B.Naono复合材料;C.热性能;C．光学性质;

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1. Synthesis of nano-sized Yb_3Al_5O_12 powders by the urea co-precipitation method [J] . Yusong Wu, Jiang Li, Yubai Pan CERAMICS INTERNATIONAL . 2009,第1期

机译：尿素共沉淀法合成Yb_3Al_5O_12纳米粉体
2. Preparation of highly dispersed YAG nano-sized powder by co-precipitation method [J] . Guogang Xu, Xudong Zhang, Wen He Materials Letters . 2006,第7期

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3. Preparation of YAG:Nd nano-sized powder by co-precipitation method [J] . Xia Li, Hong Liu, Jiyang Wang, Materials Science and Engineering. A, Structural Materials . 2004,第1a2期

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Synthesis of nano-sized Yb_3Al_5O_12 powders by the urea co-precipitation method

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