Enhanced Photoluminescense of Gd2O3：Sm3+ Nanocrystals by Li+ Doping

YU Xue; XU Hai-gang; YIN Jiang; ZHANG Wei-feng

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Enhanced Photoluminescense of Gd₂O₃：Sm³⁺ Nanocrystals by Li⁺ Doping

更新时间：2020-08-11

- Enhanced Photoluminescense of Gd₂O₃：Sm³⁺ Nanocrystals by Li⁺ Doping
- Chinese Journal of Luminescence Vol. 28, Issue 5, Pages: 754-759(2007)
- 作者机构：
  
  1. 河南大学, 物理与电子学院,河南开封,475004
  2. 南京大学, 物理系,江苏南京,210093
- 作者简介：
- 基金信息：
- DOI：
  CLC： O482.31
- Received：22 November 2006，
  
  Revised：04 January 2007，
  
  Published：20 September 2007
- 稿件说明：
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余雪, 徐海刚, 殷江, 张伟风. Li+离子掺杂Gd2O3：Sm3+纳米晶的发光增强[J]. 发光学报, 2007,28(5): 754-759

YU Xue, XU Hai-gang, YIN Jiang, ZHANG Wei-feng. Enhanced Photoluminescense of Gd2O3：Sm3+ Nanocrystals by Li+ Doping[J]. Chinese Journal of Luminescence, 2007,28(5): 754-759
余雪, 徐海刚, 殷江, 张伟风. Li+离子掺杂Gd2O3：Sm3+纳米晶的发光增强[J]. 发光学报, 2007,28(5): 754-759 DOI：

YU Xue, XU Hai-gang, YIN Jiang, ZHANG Wei-feng. Enhanced Photoluminescense of Gd2O3：Sm3+ Nanocrystals by Li+ Doping[J]. Chinese Journal of Luminescence, 2007,28(5): 754-759 DOI：

摘要

采用燃烧法制备了Gd

:Sm

和Li

离子掺杂的Gd

:Sm

纳米晶

根据X射线衍射图谱确定所得纳米样品为纯立方相。在室温下

用275 nm和980 nm激发光激发各样品时

可分别观测到Sm

离子的强荧光发射和上转换特征发射

其主发射峰分别位于560

602

650 nm处

分别对应着Sm

离子的

5/2

7/2

和

5/2

9/2

的电子跃迁

其中以

5/2

7/2

跃迁的光谱强度最大。实验表明Li

离子的掺入使得Sm

离子的荧光发射强度显著增加。通过对样品的XRD、TEM和激发光谱、发射光谱的研究

分析了引起样品荧光强度变化的原因。

Abstract

The luminescence properties of nanosized lanthanide oxide materials have attracted extensive interest because of their fundamental and technological importance.Gd

which is easily obtained due to abundant resource in nature

has been widely used as host material.The emission efficiency of Sm

associated with the intra-4f-shell transition is very high

and it earl emit bright light under both ultraviolet and infrared excitation.Therefore

it often plays a very important role in many luminescent materials.In this paper

:Sm

and Li

-doped Gd

:Sm

nanocrystals were prepared by a combustion method.The pure nanocrystals were obtained after annealing at 800℃

and the crystallinity was improved with increasing annealing temperature.Both Gd

:Sm

and Li

-doped Gd

:Sm

nanocrystals appeared to be cubic crystal-line phase according to the XRD results.In contrast to Gd

:Sm

which showed an irregular shape of ag-glomerated fine particles

the morphology of Li

-doped Gd

:Sm

nanocrystals were spherical and quite regular.These particles were measured to be about 50 nm in diameter.When excited at 275 nm and 980 nm

:Sm

and Li

-doped Gd

:Sm

nanocrystals exhibit similar emission spectra

which consist of the characteristic emission bands of the Sm

ions (

5/2

=5/2

7/2

9/2 transitions at 560

602

650 nm in the spectra) due to an efficient energy transfer from the Gd

host lattice to the doped Sm

ions.It was found that the incorporation of Li

into the Gd

:Sm

nanocrystals has greatly enhanced the photolumi-nescence intensity of Sm

in both photoluminescence and upconversion emission.The highest emission inten-sity was observed with Gd

1.83

0.15

0.02

whose brightness was increased by a factor about 7.0 in comparison with that of Gd

:Sm

.As we all known that defects of the surface of the nanoparticles

which provide non-radiation recombination routes for electrons and holes

often act as non-radiative centers and has great influence on luminescent properties.It can be suggested that the incorporation of Li

can greatly decrease the deficiencies and oxygen vacancies.That is

the defects and oxygen vacancies of the surface of nanoparticles decreased at first when Li

content was lower

which decreased the luminescence quenching centers and increased the crystallinity

thereby enhanced the emission intensity.A lot of defects could be induced in the system with a gradual increase of Li

content.This will destroy the crystallinity and thus lead to the luminescence quenching.In conclusion

this paper reported the correlation between the morphology

structure and optical behaviors on Gd

:Sm

nanocrystals doped with Li

doping at a low content significantly improved the morphology of phosphors and strongly enhanced the luminescent properties.

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