Deep Level of ZnO/p-Si Heterostructure  and Its Influence on the Photoluminescence

LIU Ci-hui; ZHU Jun-jie; LIN Bi-xia; CHEN Yu-lin; PENG Cong; YANG Zhen; FU Zhu-xi

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Deep Level of ZnO/p-Si Heterostructure and Its Influence on the Photoluminescence

更新时间：2020-08-11

- Deep Level of ZnO/p-Si Heterostructure and Its Influence on the Photoluminescence
- Chinese Journal of Luminescence Vol. 22, Issue 3, Pages: 218-222(2001)
- 作者机构：
  
  1. 中国科学技术大学物理系,安徽合肥,230026
  2. 中国科学技术大学物理系中国科学技术大学结构分析开放实验室,安徽合肥,230026
  3. 中国科学技术大学少年班,安徽合肥,230026
- 作者简介：
- 基金信息：
- DOI：
  CLC： O483.3
- Received：25 September 2000，
  
  Revised：30 November 2000，
  
  Published：30 August 2001
- 稿件说明：
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刘磁辉, 朱俊杰, 林碧霞, 陈宇林, 彭聪, 杨震, 傅竹西. ZnO/p-Si异质结的深能级及其对发光的影响[J]. 发光学报, 2001,22(3): 218-222

LIU Ci-hui, ZHU Jun-jie, LIN Bi-xia, CHEN Yu-lin, PENG Cong, YANG Zhen, FU Zhu-xi. Deep Level of ZnO/p-Si Heterostructure and Its Influence on the Photoluminescence[J]. Chinese Journal of Luminescence, 2001,22(3): 218-222
刘磁辉, 朱俊杰, 林碧霞, 陈宇林, 彭聪, 杨震, 傅竹西. ZnO/p-Si异质结的深能级及其对发光的影响[J]. 发光学报, 2001,22(3): 218-222 DOI：

LIU Ci-hui, ZHU Jun-jie, LIN Bi-xia, CHEN Yu-lin, PENG Cong, YANG Zhen, FU Zhu-xi. Deep Level of ZnO/p-Si Heterostructure and Its Influence on the Photoluminescence[J]. Chinese Journal of Luminescence, 2001,22(3): 218-222 DOI：

摘要

利用深能级瞬态谱(DLTS)和光致发光谱(PL)

研究了ZnO/pSi异质结的两种不同温度(850℃

1000℃)退火下的深能级中心。发现850℃退火的样品存在3个明显的深中心

分别为

+0.21eV

+0.44eV

+071eV;而1000℃退火样品仅存在一个

+021eV的中心

且其隙态密度要比850℃退火的大。同时

测量了两个样品的PL谱。发现1000℃退火可消除一些影响发光强度的深能级

对改善晶格结构

提高样品的发光强度有利。

Abstract

The technology of deep level transient spectroscopy (DLTS) develops from the technology of measuring transient capacitance. Through the temperature scanning

it can rapidly

exactly describe the deep levels of the sample. And it has wide measuring range. So it has been becoming the popular measurement to study the deep level of the semiconductor. Zinc oxide is a self activated crystal with hexagonal wurtzite structure and has a gap of 3.3eV at room temperature.ZnO phosphor powders have been studied for several decades. Recently

ZnO films have attracted attention due to their wide applications in photoelectric materials such as surface acoustic wave guide

piezoelectric materials

transparent electrodes for some solar cells

and as a buffer layer for GaN. As most efforts focus on short wavelength semiconductor materials

stimulated and spontaneous ultraviolet emissions of ZnO thin films have been found. Comparing to the semiconductors used in conventional lasers

the UV emission of ZnO films has shorter wavelength. If a practical emitting device with short wavelength made by ZnO films could be fabricated

it must have exciting applications in compact disk recorder and other photoelectronics areas. In order to know the mechanism of its photoluminescence

the research in the properties of ZnO films is therefore important. In this article

we use deep level transient spectroscopy (DLTS) to study the ZnO/p Si heterostructure which was treated by two different temperatures (850℃

1 000℃) and to find its relationship to the photoluminescence .The results showed that the sample 1

(850℃ treated) has three obvious deep levels (

) and the sample 2

(1000℃ treated) has only

level. But the density of this level is higher than that of sample 1

. At the same time

the photoluminescence spectra of the samples were also measured. It is found that the sample 2

has higher density of photoluminescence because it has less levels and higher density of the level. Through the higher temperature (1000℃) treatment

some defect levels which affect the photoluminescence disappeared

and the crystal lattice become more integrated. So the treatment temperature of 1000℃ is efficient to improve the density of the photoluminescence of ZnO.

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Related Institution

College of Photonic and Electronic Engineering， Fujian Normal University

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. 33 Research Institute of China Electronics Technology Group Corporation, Taiyuan

School of Applied Science, Taiyuan University of Science and Technology

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