Gd2O3：(Ce3+, Eu3+)微晶中稀土离子间的级联能量传递

魏亚光; 施朝淑; 王正; 陶冶; 王渭; 戚泽明

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Gd₂O₃：(Ce³⁺, Eu³⁺)微晶中稀土离子间的级联能量传递

稀土发光材料 | 更新时间：2020-08-11

- Gd₂O₃：(Ce³⁺, Eu³⁺)微晶中稀土离子间的级联能量传递
- Cascade Energy Transfer in Gd₂O₃：(Ce³⁺,Eu³⁺) Micro-crystal
- 发光学报 2001年22卷第3期页码：243-247
- 作者机构：
  
  1. 中国科学技术大学, 国家同步辐射实验室, 安徽合肥230029
  2. 中国科学技术大学物理系,安徽合肥,230026
  3. 中国科学院高能物理研究所北京,100039
- 作者简介：
- 基金信息：
  
  国家自然科学基金资助项目(59732040)()
- DOI：
  中图分类号： O482.31
- 收稿日期：2000-09-26，
  
  修回日期：2001-01-21，
  
  纸质出版日期：2001-08-30
- 稿件说明：
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魏亚光, 施朝淑, 王正, 陶冶, 王渭, 戚泽明. Gd2O3：(Ce3+, Eu3+)微晶中稀土离子间的级联能量传递[J]. 发光学报, 2001,22(3): 243-247

WEI Ya-guang, SHI Chao-shu, QI Ze-ming, WANG Zheng, TAO Ye, WANG Wei. Cascade Energy Transfer in Gd2O3：(Ce3+,Eu3+) Micro-crystal[J]. Chinese Journal of Luminescence, 2001,22(3): 243-247
魏亚光, 施朝淑, 王正, 陶冶, 王渭, 戚泽明. Gd2O3：(Ce3+, Eu3+)微晶中稀土离子间的级联能量传递[J]. 发光学报, 2001,22(3): 243-247 DOI：

WEI Ya-guang, SHI Chao-shu, QI Ze-ming, WANG Zheng, TAO Ye, WANG Wei. Cascade Energy Transfer in Gd2O3：(Ce3+,Eu3+) Micro-crystal[J]. Chinese Journal of Luminescence, 2001,22(3): 243-247 DOI：

摘要

本文报道了纳米Gd

:(Ce

)的紫外与真空紫外(UVVUV)激发谱及其选择激发下的荧光光谱。这些光谱实验表明

除了Gd

基质与Ce

离子之间的能量传递外

还存在着Gd

与Ce

、Eu

间的能量传递

即存在Gd

三种稀土离子间的级联传递。

Abstract

:(Ce

) is a potential luminescent material which can act both in fundamental research and application. In the past two years

Wegh et al. realized the quantum cutting grounded on the energy transfer between some rare earth ions such as Gd

and so on

the quantum efficiency approximates to 200%. So we investigated the energy transfer in Gd

system

prepared for the design of the new type materials based on effective quantum cutting. Gd

:(Ce

) micro crystals were prepared by the sol-gel method. The samples were checked to be pure cubic phase by X-ray powder diffraction

the mean size of particles is about 400nm. The excitation spectra of Ce

(

=450nm) and Eu

(

=619nm) in the UV range were researched

and the emission spectra of Ce

and Eu

were measured with UV excitation respectively. The results showed that the energy transfer between Gd

and Ce

and Eu

correspond to the energy transfer from

7/2

and

7/2

(Gd

) to 4f (

7/2

5/2

)5d (Ce

)

from

7/2

and

7/2

(Gd

) to 7F 1

(Eu

)

and from 5d4f(

7/2

5/2

) (Ce

) to 7F 1

(Eu

)

respectively. We also made use of synchrotron radiation light to detect the excitation spectra of Gd

:(Ce

) in the UV VUV range

and the emission spectra with VUV (180nm) excitation. The emission spectra of Ce

(

=450nm) was decomposed to four sub bands with UV excitation

while it was decomposed to two sub bands under VUV excitation. These results indicate that Ce

substituted for Gd

and located in two kinds of different sub lattices. Gd

can transfer energy to two kinds of different sub lattices effectively

while the host just can transfer energy to one kind of different sub lattices. The energy transfer from

7/2

and

7/2

(Gd

) to 4f (

7/2

5/2

)5d (Ce

)

and from 5d4f(

7/2

5/2

) (Ce

) to

F 1

(Eu

) occurred simultaneously

so it is concluded that the cascade energy transfer Gd

exists in Gd

:(Ce

) micro crystals.

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