应用化学 ›› 2011, Vol. 28 ›› Issue (08): 913-917.DOI: 10.3724/SP.J.1095.2011.00586

• 研究论文 • 上一篇    下一篇

Tb3+掺杂CePO4核壳微球的水热合成及其发光性能

王鹏飞,张贤文,朱永春,钱逸泰*   

  1. (中国科学技术大学化学与材料科学学院 合肥 230026)
  • 收稿日期:2010-10-06 修回日期:2010-12-02 出版日期:2011-08-10 发布日期:2011-08-10
  • 通讯作者: 钱逸泰,教授; Tel:0551-3600006; Fax:0551-3607402; E-mail:ytqian@ustc.edu.cn; 研究方向:无机固体材料的设计合成和性质
  • 基金资助:
    国家重点基础研究发展计划(973)项目(2005CB623601)

Hydrothermal Synthesis and Luminescence Properties of CePO4∶Tb Core-shell Microspheres

WANG Pengfei, ZHANG Xianwen, ZHU Yongchun, QIAN Yitai*   

  1. (School of Chemistry and Material Science,University of Science and Technology of China,Hefei 230026)
  • Received:2010-10-06 Revised:2010-12-02 Published:2011-08-10 Online:2011-08-10
  • Contact: QIAN yitai

摘要:

在pH=1无模板条件下水热合成出直径为2~3 μm的CePO4∶Tb核壳微球结构。 其核壳表面由直径为20~30 nm、长度为200~300 nm的纳米棒组成。 产物生长过程实验表明,首先形成球状团聚产物,然后一些颗粒在表面生长,由于奥斯瓦尔德熟化效应产物尺寸变大,最后表面上的部分颗粒消耗内部的核而外延生成一维纳米棒。 CePO4∶Tb核壳微球的荧光性质和荧光寿命测试表明,当Tb3+摩尔分数为10%时,发射强度达到最大值,Tb3+浓度再增加其荧光发射强度由于浓度淬灭作用而迅速降低。

关键词: CePO4∶Tb, 核壳微球, 水热合成, 光致发光

Abstract:

Tb3+-doped CePO4 core-shell microspheres with diameter of 2~3 μm were hydrothermally synthesized at pH=1.0 without using any template or surfactant. It was observed that the shells of these spheres were composed by nanorods with a diameter of about 20~30 nm and lengths up to 200~300 nm. The time-dependent experiments were also carried out to investigate their growing process. Initially, aggregated spherical products were formed. Then, some particles grew on its surface. As a result of Ostwald ripening, the size of the product increased. Finally, at the expense of the cores inside the spheres, the surface of the product experienced a change from nanoparticles to nanorods. The luminescent properties and luminescence decay lifetimes of CePO4∶Tb core shell microspheres were performed, indicating that the strongest emission intensity was reached with 10% molar fraction of Tb3+ ions, which might be ascribed to the concentration quenching effect.

Key words: CePO4∶Tb, core shell microspheres, hydrothermal synthesis, photoluminescence

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