水热法制备YVO<SUB>4</SUB> : Eu<SUP>3+</SUP>的热处理及其发光性能

左银艳; 令维军; 张 凤; 高 辉; 王育华

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水热法制备YVO₄ : Eu³⁺的热处理及其发光性能

论文 | 更新时间：2020-08-12

- 水热法制备YVO₄ : Eu³⁺的热处理及其发光性能
- Photoluminescence Properties of YVO₄ : Eu³⁺ Phosphor after Thermal Treatment
- 发光学报 2010年31卷第1期页码：64-68
- 作者机构：
  
  天水师范学院物理学与信息科学学院功能分子与超快光子研究所,甘肃天水,741000
- 作者简介：
- 基金信息：
- DOI：
  中图分类号： O482.31
- 收稿日期：2009-06-16，
  
  修回日期：1900-01-02，
  
  网络出版日期：2010-02-20，
  
  纸质出版日期：2010-02-20
- 稿件说明：
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左银艳, 令维军, 张凤, 等. 水热法制备YVO₄ : Eu³⁺的热处理及其发光性能[J]. 发光学报, 2010,31(1):64-68.

ZUO Yin-yan, LING Wei-jun, ZHANG Feng, et al. Photoluminescence Properties of YVO₄ : Eu³⁺ Phosphor after Thermal Treatment[J]. Chinese journal of luminescence, 2010, 31(1): 64-68.
左银艳, 令维军, 张凤, 等. 水热法制备YVO₄ : Eu³⁺的热处理及其发光性能[J]. 发光学报, 2010,31(1):64-68. DOI：

ZUO Yin-yan, LING Wei-jun, ZHANG Feng, et al. Photoluminescence Properties of YVO₄ : Eu³⁺ Phosphor after Thermal Treatment[J]. Chinese journal of luminescence, 2010, 31(1): 64-68. DOI：

摘要

用水热法制备的YVO

: Eu

分别在400~800 ℃下进行热处理

研究了所得样品的结构及其发光性能。实验结果表明:所得样品都为单相结构

随着热处理温度的升高

样品的结晶度变好

颗粒变大。在紫外光谱范围

YVO

: Eu

的激发光谱由VO

的吸收带和Eu

的电荷迁移带组成。在真空紫外(VUV)

激发光谱由基质吸收

、O

的电荷迁移带组成。发射光谱均为Eu

的

→

(J＝1

4)跃迁。紫外和真空紫外激发下

样品的发光强度比未经过热处理的样品有显著增强

归因于样品的结晶度的提高和OH

、VO

等发光猝灭离子的去除。

Abstract

YVO

: Eu

was successfully synthesized by hydrothermal method

and was further thermally treated at 400~800 ℃

respectively. Their crystal structure

SEM(scanning electron microscope)images and luminescence properties were obtained in room temperature. XRD showed that YVO

: Eu

was formed with good single phase

and when the temperature changes in 400~800 ℃

the crystallinity is higher and higher

and the crystal grain become bigger and bigger than untreated sample. SEM images also indicated the grain of the sample after treatment is bigger than that of YVO

: Eu

before treatment. In the UV range

the excitation band is composed of a broad band with the maximum at about 260 nm and a sharp band with the maximum at about 395 nm. The peak of 260 nm is assigned to the overlap of VO

ion and O

→Eu

charge transfer band absorption; the peak at 395 nm is due to

→

transition of Eu

. In the VUV range

the excitation band was composed of a strong broad band at about 156 nm and a broad band at about 200 nm. The peak of 156 nm could be assigned to the absorption band of host

and the peak of 200 nm is assigned to the charge transfer band of O

→Y

. After 200 nm

the shape of absorption spetrum is similar to the UV excitation spectra. under 254 nm excitation

the YVO

∶ Eu

phosphor exhibits the well-known Eu

emission

which makes up of several sharp lines of Eu

namely the

→

transitions

respectively

the dominated emission peak is

→

at 619 nm under 147 nm excitation

their emission spectra are consistent with that under 254 nm excitation. With the temperature increasing in 400~800 ℃

the emission intensity of samples is improved because of the higher crystallinity

bigger grain

and removing of OH

and VO

which can quench the luminescence. Under 254 nm and 147 nm excitation

the emission intensity of the sample thermally treated at 800 ℃ is improved 90% and 95% comparing with the untreated sample

respectively. It was indicated that 800 ℃ is the best thermal treatment temperature.

关键词

Keywords

references

. Huignard A, Gacoin T, Boilot J P. Synthesis and luminescence properties of colloidal YVO4 ∶ Eu3+ phosphors [J]. Chem. Mater., 2000, 12 (4):1090-1094.

. Li Bo, Shen Leijun. Zhou Yongbo, et al. Luminescent properties of YVO4·xTiO2 ∶ Eu3+ [J]. Chin. J. Lumin. (发光学报), 2009, 30 (6):758-762 (in Chinese).

. Kang J H, Im W B, Lee D C, et al. Correlation of photoluminescence of (Y,Ln)VO4 ∶ Eu3+(Ln=Gd and La) phosphors with their crystal structures [J]. Solid State Commun., 2005, 133 (10):651-656.

. Riwotzki Km, Haase M. Wet-chemical synthesis of doped colloidal nanoparticales:YVO4 : Ln(Ln=Eu,Sm,Dy) [J]. J. Phys. Chem. B, 1998, 102 (5):10129-10135.

. Lai Huashang, Chen Baojiu, Xu Wu, et al. Synthesis and luminous characteristics of Y(P, V)O4 : Eu3+ phosphors for PDP [J]. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2005, 25 (12):1929-1932 (in Chinese).

. Wang Y H, Zuo Y Y. Luminescence properties of nanocrystalline YVO4 : Eu3+ under UV and VUV excitation [J]. Mater. Res. Bull., 2006, 41 (11):2147-2153.

. Zhang J C, Wang Y H, Guo X. VUV-excited photoluminescence dependent on thermal treatment of YBO3 : Tb3+ derived by hydrothermal process [J]. J. Lumin., 2007, 122-123 :980-983.

. Zhu Yuemei, Lin Bo. Raw material synthesis of YVO4 birefringent crystal and investigation on the optimun conditions [J]. J. Synthetic Crystals (人工晶体学报), 2001, 30 (1):73-74 (in Chinese).

. Zhang Qingli, Shi Chaoshu. Study of vacuum ultraviolet and ultraviolet excitation spectra of GdVO4 : Eu3+[J]. J. Chin. Rare Earths Soc. (中国稀土学报), 2001, 19 (1):1-4 (in Chinese).

. Berkowitz J K, Olsen J A. Investigation of luminescent materials under ultraviolet excitation energies from 5 to 25 eV [J]. J. Lumin., 1991, 50 (2):111-121.

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水热法制备YVO4 : Eu3+的热处理及其发光性能

Photoluminescence Properties of YVO4 : Eu3+ Phosphor after Thermal Treatment

DOI：

摘要

Abstract

关键词

Keywords

references

水热法制备YVO₄ : Eu³⁺的热处理及其发光性能

Photoluminescence Properties of YVO₄ : Eu³⁺ Phosphor after Thermal Treatment