Gd2O3：Er/Yb纳米线、纳米片的制备与发光性质

杨林梅; 宋宏伟

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Gd₂O₃：Er/Yb纳米线、纳米片的制备与发光性质

材料合成及性能 | 更新时间：2020-08-11

- Gd₂O₃：Er/Yb纳米线、纳米片的制备与发光性质
- Synthesis and Luminescence Properties of Nanowires and Nanoslices of Gd₂O₃：Yb³⁺/Er³⁺
- 发光学报 2006年27卷第6期页码：987-990
- 作者机构：
  
  1. 中国科学院, 激发态物理重点实验室, 吉林, 长春, 130033
  2. 沈阳工业大学理学院, 物理系,辽宁沈阳,110023
- 作者简介：
- 基金信息：
  
  国家自然科学基金资助项目(10374086)()
- DOI：
  中图分类号： O482.31
- 收稿日期：2006-04-05，
  
  修回日期：2006-06-16，
  
  纸质出版日期：2006-11-20
- 稿件说明：
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杨林梅, 宋宏伟. Gd2O3：Er/Yb纳米线、纳米片的制备与发光性质[J]. 发光学报, 2006,27(6): 987-990

YANG Lin-mei, SONG Hong-wei. Synthesis and Luminescence Properties of Nanowires and Nanoslices of Gd2O3：Yb3+/Er3+[J]. Chinese Journal of Luminescence, 2006,27(6): 987-990
杨林梅, 宋宏伟. Gd2O3：Er/Yb纳米线、纳米片的制备与发光性质[J]. 发光学报, 2006,27(6): 987-990 DOI：

YANG Lin-mei, SONG Hong-wei. Synthesis and Luminescence Properties of Nanowires and Nanoslices of Gd2O3：Yb3+/Er3+[J]. Chinese Journal of Luminescence, 2006,27(6): 987-990 DOI：

摘要

采用水热法制备了Gd

:Yb

/Er

纳米线和纳米片

并研究了制备过程中溶液的pH值对产物形貌的影响以及样品形貌对发光性质的影响。将稀土氧化物溶于硝酸并与NaOH反应

使溶液pH值至预期值

将生成物离心、烘干和灼烧

得到最终产物。研究发现

制备样品过程中

中性溶液中易于形成纳米片

而碱性溶液中则会形成纳米线

而且碱性越强越容易形成纳米线。在980nm激光激发下

与纳米片相比

纳米线中Er

的

13/2

15/2

的红外发射强度显著减弱

而

11/2

3/2

15/2

和

9/2

15/2

的上转换发射相对增强

而且

11/2

3/2

15/2

与

9/2

15/2

的荧光分支比略有增大。纳米线与纳米片相比

比表面积减小

由表面效应引起的无辐射弛豫过程的减弱导致了上述光谱的变化。

Abstract

Recently

low-dimensional structures

such as nanowires

nanoslices and nanotubes

have aroused remarkable attentions due to a great deal potential applications in data storage

advanced catalyst

photoelectronic devices etc. In this paper nanowires were prepared by the hydrothermal method. Appropriate amounts of high purity Gd

and Er

were dissolved into concentrated HNO

solution. Diluted NaOH solution was dripped into the solution to adjust the pHvalues for an appropriate value. After well stirred

the resultants of RE(OH)

(

=Gd

Er) colloidal solution was heated and then was centrifuged and dried. The dried RE(OH)

powders were calcined

and finally Gd

:Er

/Yb

nanowires and nanoslices were obtained. The morphology and size of nanowires were obtained by transmission electron micrograph and X-ray diffraction patterns. By controlling the pHvalues

the shape of the nanocrystals varied from two-dimensional nanoslices to one-dimensional nanowires. It was found that the nanoslices were yielded in the chemically neutral conditions and nanowires were yielded in the alkalescent conditions. Emission spectra were studied under the 980 nm diode laser pumping. Green upconversion luminescence of

11/2

3/2

15/2

red upconversion luminescence of

9/2

15/2

and infrared emissions of

13/2

15/2

were observed. The infrared emissions of

13/2

15/2

gradually decreased with the increase of pHvalue and the forming of nanowires

while the visible upconversion luminescence of

11/2

3/2

15/2

and

9/2

15/2

gradually increased

indicating more efficient upconversion luminescence. The relative intensity of the green emissions to the red emissions also increased with the increase of pH value. Electronic relaxation processes dominates the intensity ratio of the upconversion luminescence to the infrared emissions. The ratio of surface atoms to inner atoms in nanowires was decreased in comparison to that in nanoslices

and the nonradiative relaxation was decreased due to a great number of surface defects involved. This led the intensity of upconversion luminescence to increase and the intensity of infrared emission to decrease relatively in nanowires.

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