Eu<sup>3+</sup>掺杂钙钛矿结构的MSnO<sub>3</sub>(M=Ca,Sr,Ba)发光粉的发光特性研究

邱桂明; 吴魏雄; 周涛

光电子技术, 2011, 31 (4): 263, 网络出版: 2012-04-16

Eu³⁺掺杂钙钛矿结构的MSnO₃(M=Ca,Sr,Ba)发光粉的发光特性研究

A Study on the Luminescent Property of Eu³⁺-doped MSnO₃(M=Ca,Sr,Ba) Perovskite

论文大纲

邱桂明 ^1,*吴魏雄 ¹周涛 ²

作者单位

¹ 汕头大学物理系，广东汕头 515063

² 汕头超声显示器有限公司，广东汕头 515041

高温固相法发光特性 high temperature solid-state reaction method MSnO3∶Eu3+(M=Ca MSnO3∶Eu3+(M=Ca Sr Sr Ba) Ba) luminescent property

摘要

利用高温固相反应法合成了MSnO3∶ Eu3+ (M=Ca,Sr,Ba)发光粉末样品,采用X射线衍射技术和荧光光谱等测试手段对样品的结构、固相反应机理及发光特性进行了研究。结果表明:Eu3+离子的掺杂未明显改变MSnO3(M=Ca,Sr,Ba)的晶体结构。荧光光谱测试显示Ca0.98Eu0.02SnO3样品的发射以电偶极跃迁5D0-7F2的红光发射为主,荧光寿命测试结果表明Ca0.98Eu0.02SnO3样品中存在能量转移现象。Sr0.98Eu0.02SnO3样品的发射以5D0-7F1磁偶极跃迁为主。Ba0.98Eu0.02SnO3样品的发射也以磁偶极跃5D0-7F1为主,但是Ba0.98Eu0.02SnO3发光比Ca0.98Eu0.02SnO3弱很多。简言之,MSnO3∶Eu3+(M=Ca,Sr,Ba)的发光能力与其晶格对称性、键能键长,带隙宽度有关。

Abstract

MSnO3:Eu3+(M=Ca,Sr,Ba) powder samples were prepared with high temperature solid-state reaction. Structures, solid-state reaction mechanism and luminescence properties were investigated respectively with testing, such as XRD, fluorescence spectra and so on. The results of X-ray diffraction testing indicate that Eu3+ions doping changes the crystal structure of MSnO3 (M=Ca,Sr,Ba) slightly. The fluorescence spectra testing shows that emission of Ca0.98Eu0.02SnO3sample is mainly from red-light emitting dominated 5D0-7F2 electric dipole transition while the fluorescence lifetime testing results witnesse the energy transfer phenomenon. The emission of Sr0.98Eu0.02SnO3sample is dominated with 5D0-7F1 magnetic dipole transition as well as Ba0.98Eu0.02SnO3but with a much less luminescence intensity. The luminescence capacity of MSnO3:Eu3+(M=Ca,Sr,Ba) lattice relates to the lattice symmetry, bond-energy, bond-length and the width of the band gap.Key words: high temperature solid-state reaction method; MSnO3:Eu3+(M=Ca,Sr,Ba); luminescent property.

参考文献

[1] Sharma N,Shaju K M,Subba Rao G V,et.al. Sol-gel derived nano-crystalline CaSnO3 as high capacity anode material for Li-ion batteries［J］. Electrochemistry Communications,2002,4(12):947-952.

[2] Azad A M,Hon N C. Characterization of BaSnO3-based ceramics: Part 1. Synthesis, processing and microstructural development［J］. Journal of Alloys and Compounds,1998,270(1):95-106.

[3] Liu Zhengwei,Liu Yingliang. Synthesis and luminescent properties of a new green afterglow phosphor CaSnO3∶Tb ［J］. Materials Chemistry and Physics,2005,93(1):129-132.

[4] Lu Zhouguang,Chen Limiao,Tang Yougen,et.al. Preparation and luminescence properties of Eu3+-doped MSnO3(M=Ca,Sr and Ba) perovskite materials［J］. Journal of Alloys and Compounds,2005,387(1-2):1-4.

[5] Zhang Weifeng,Tang Junwang,Ye Jinhua. Photoluminescence and photocatalytic properties of SrSnO3 perovskite［J］. Chemical Physics Letters， 2006,418(10):174-178.

[6] Hiroshi Mizoguchi,Hank W　Eng,Patrick M Woodward. Probing the electronic structure of ternary perovskite and pyrochlore oxides containing Sn4+ or Sb5+［J］. Inorganic Chemistry, 2004,43(5):1667-1680.

[7] Medeiros　S　K, Albuquerque　E　L, Maia Jr　F　F，et　al.First-principles calculations of structural, electronic, and optical absorption properties of CaCO3 vaterite［J］.Chemical Physics Letters, 2007,435(1-3):59-64.

[8] Hadjarab　B,Bouguelia A，Trari　M. Optical and transport properties of lanthanum-doped stannate BaSnO3［J］. Phys D: Appl Phys, 2007,40(10):5833-5839.

[9] Wang Wanjun, Bi Jinhong, Wu Ling, et al. Hydrothermal synthesis and catalytic performances of a new photocatalyst CaSnO3 with microcube morphology［J］. Scripta Materialia, 2009,60(3): 186-189.

[10] 张希艳,卢利平.稀土发光材料［M］.北京:国防出版社. 2005.

[11] 张思远.稀土离子光谱学［M］.北京:科学出版社,2008.

邱桂明, 吴魏雄, 周涛. Eu³⁺掺杂钙钛矿结构的MSnO₃(M=Ca,Sr,Ba)发光粉的发光特性研究[J]. 光电子技术, 2011, 31(4): 263. Qiu Guiming, Wu Weixiong, Zhou Tao. A Study on the Luminescent Property of Eu³⁺-doped MSnO₃(M=Ca,Sr,Ba) Perovskite[J]. Optoelectronic Technology, 2011, 31(4): 263.

Eu³⁺掺杂钙钛矿结构的MSnO₃(M=Ca,Sr,Ba)发光粉的发光特性研究

关于本站 Cookie 的使用提示

全站搜索

Eu3+掺杂钙钛矿结构的MSnO3(M=Ca,Sr,Ba)发光粉的发光特性研究

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索

Eu³⁺掺杂钙钛矿结构的MSnO₃(M=Ca,Sr,Ba)发光粉的发光特性研究