Luminescence of Eu2+ and Energy Transfer from Ce3+to Eu2+ in Lanthanum Phosphate

ZHU Hui; XIONG Guang-nan

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Luminescence of Eu²⁺ and Energy Transfer from Ce³⁺to Eu²⁺ in Lanthanum Phosphate

更新时间：2020-08-11

- Luminescence of Eu²⁺ and Energy Transfer from Ce³⁺to Eu²⁺ in Lanthanum Phosphate
- Chinese Journal of Luminescence Vol. 24, Issue 3, Pages: 234-238(2003)
- 作者机构：
  
  天津理工学院, 材料物理研究所天津,300191
- 作者简介：
- 基金信息：
- DOI：
  CLC： O482.31
- Received：14 August 2002，
  
  Revised：10 October 2002，
  
  Published：20 May 2003
- 稿件说明：
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朱汇, 熊光楠. Eu2+在磷酸镧中的发光及Ce3+→Eu2+的能量传递[J]. 发光学报, 2003,24(3): 234-238

ZHU Hui, XIONG Guang-nan. Luminescence of Eu2+ and Energy Transfer from Ce3+to Eu2+ in Lanthanum Phosphate[J]. Chinese Journal of Luminescence, 2003,24(3): 234-238
朱汇, 熊光楠. Eu2+在磷酸镧中的发光及Ce3+→Eu2+的能量传递[J]. 发光学报, 2003,24(3): 234-238 DOI：

ZHU Hui, XIONG Guang-nan. Luminescence of Eu2+ and Energy Transfer from Ce3+to Eu2+ in Lanthanum Phosphate[J]. Chinese Journal of Luminescence, 2003,24(3): 234-238 DOI：

摘要

采用高温固相反应合成了LaPO

:Eu

和LaPO

:Ce

样品

报道了Eu

在LaPO

中的发光性质和Ce

→Eu

的能量传递现象。文中探讨了Ce

→Eu

的能量传递机理

根据Dexter电多极相互作用的理论证明其为偶极子偶极子相互作用的共振能量传递。

Abstract

A new luminescence material-LaPO

doped with Eu

and Ce

was prepared by high temperature solid state reaction. And the optical properties of Eu

activated and Ce

coactivated lanthanum phosphates were investigated by using photoluminescence(PL) measurements. Emission spectrum of LaPO

:Eu

recorded at room temperature with 324nm excitation shows a broad emission band centered at 423nm.And it is possible to determine the distribution of this broad emission band in the spectrum associated with transition from the 4f5d level of Eu

ion. The excitation spectrum of Eu

activated lanthanum phosphate recorded at room temperature monitoring 423nm emission exhibits absorption in UV region (220～400nm) assigned to the 4f→5d transition of Eu

ion. Lanthanum phosphate doped with Ce

was also prepared by high temperature solid state reaction. The room temperature photoluminescence spectra of LaPO

:Ce

show the broad emission and excitation band of Ce

ion

around 342nm and 284nm

respectively. From these spectra above

it's possible to deduce that energy transfer between the Eu

and Ce

ion will probably happen because of the well overlapping between Ce

emission and Eu

excitation. And it's well proved in the excitation spectrum of LaPO

coactivated by Eu

and Ce

at room temperature

monitoring Eu

emission. This spectrum shows a strong absorption band of Ce

ranging over 220～340nm

in addition to original f→d transition of Eu

(220～400nm). That is to say there happens a sensitization of Eu

by the presence of Ce

ion. The Eu

emission intensity of LaPO

:Ce

0.01

is 5.6 times higher than that of the corresponding phosphor activated by Eu

only. A series of LaPO

:Ce

0.01

were prepared to study the mechanism of the energy transfer between the Eu

and Ce

ion. The emission spectra of the LaPO

:Ce

0.01

at room temperature were measured. The relationship between the Ce

donor emission intensity and the Eu

acceptor concentration was fit to the d→d (dipole dipole) energy transfer model for multipole multipole interaction. So it is concluded that the energy transfer between the Ce

and Eu

ions in lanthanum phosphate is to be a process of dipole dipole resonance interaction.

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Related Institution

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