Radiant Properties of PDP Phosphor by Vacuum Ultraviolet

MU Tong-sheng; HONG Guang-yan

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Radiant Properties of PDP Phosphor by Vacuum Ultraviolet

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- Radiant Properties of PDP Phosphor by Vacuum Ultraviolet
- Chinese Journal of Luminescence Vol. 23, Issue 4, Pages: 403-405(2002)
- 作者机构：
  
  1. 浙江大学现代光学仪器国家重点实验室,浙江杭州,310027
  2. 中国科学院长春应用化学研究所, 稀土化学与物理开放实验室,吉林长春,130022
- 作者简介：
- 基金信息：
- DOI：
  CLC： O482.31
- Received：18 September 2001，
  
  Revised：22 March 2002，
  
  Published：20 July 2002
- 稿件说明：
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牟同升, 洪广言. PDP用荧光粉的真空紫外辐照特性[J]. 发光学报, 2002,23(4): 403-405

MU Tong-sheng, HONG Guang-yan. Radiant Properties of PDP Phosphor by Vacuum Ultraviolet[J]. Chinese Journal of Luminescence, 2002,23(4): 403-405
牟同升, 洪广言. PDP用荧光粉的真空紫外辐照特性[J]. 发光学报, 2002,23(4): 403-405 DOI：

MU Tong-sheng, HONG Guang-yan. Radiant Properties of PDP Phosphor by Vacuum Ultraviolet[J]. Chinese Journal of Luminescence, 2002,23(4): 403-405 DOI：

摘要

利用“等离子体显示用荧光粉光学测试系统”中147nm真空紫外光

对实用的(Y

Gd)BO

:Eu红粉

SiO

:Mn和(Ba

Mg)O·nAl

:Mn绿粉以及(Ba

Mg)O·nAl

:Eu

蓝粉进行较长时间的辐照

以观察荧光粉的衰减特性

发现红粉衰减最小

蓝粉初始衰减较快

而绿粉亮度存在一个先升后降的现象.

Abstract

The PDP would be the most promising that panel displays for high definition television (HDTV)

wall-hanging TV

because the size can be increased relatively easily and it also offers fast response

a wide viewing angle and other advantages. In PDPs

three primary color phosphors are excited by more energetic vacuum ultraviolet (VUV) radiation of wavelengths of 130

147 and 172nm from inert gas plasma. PDP phosphors are exposed to the VUV of high energy and high intensity. Thus the radiation stability of phosphors should be considered seriously. The color center and surface defects of phosphor caused by the radiation will decrease luminescence efficiency. In the paper

the radiation properties of PDP phosphors were studied by 147nm excitation. These PDP phosphors are (Y

Gd)BO

:Eu(red)

SiO

:Mn (green)

(Ba

Sr) O·nAl

:Mn (green) and (Ba

Mg)O·nAl

:Eu

(blue). We have observed the decay of (Y

Gd)BO

:Eu is the smallest amount the four phosphors; the decay of (Ba

Mg)O·nAl2O:Eu

is the fastest at the beginning

then the decay speed change slower. It may be the Eu

in (Ba

Mg)O·nAl

:Eu

is unstable

because it could be oxidized to Eu

under the VUV radiation. We have found that the brightness of Zn

SiO

:Mn(green) and (Ba

Sr)O·nAl

:Mn rise at first

then decay down; the decay of Zn

SiO

:Mn is slower than that of (Ba

Sr)O·nAlO3:Mn

but the brightness of (Ba

Sr)O· nAl

:Mn is higher than Zn

SiO

:Mn. The performance of the commercial PDP phosphors is still not good enough for practical application. For the wide spread acceptance of the PDP

new phosphors should be developed in the near future.

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Related Institution

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