化学沉积AgOx薄膜的透光性能

毛健; 尹海顺; 涂铭旌

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化学沉积AgOx薄膜的透光性能

材料科学与工程 | 更新时间：2023-11-28

- 化学沉积AgOx薄膜的透光性能
- Light Transmittance of AgOx Thin Films Prepared by Chemical Bath Deposition
- 工程科学与技术 2009年41卷第5期页码：132-135
- 作者机构：
  
  四川大学材料科学与工程学院
- 作者简介：
- 基金信息：
  
  其它
- DOI：
  中图分类号：
- 纸质出版日期：2009，
  
  网络出版日期：2008-12-24，
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毛健,尹海顺,涂铭旌.化学沉积AgOx薄膜的透光性能[J].工程科学与技术,2009,41(5):132-135.

Mao Jian, YIN Hai-shun, Tu Mingjing. Light Transmittance of AgOx Thin Films Prepared by Chemical Bath Deposition[J]. Advanced Engineering Sciences, 2009,41(5):132-135.
毛健,尹海顺,涂铭旌.化学沉积AgOx薄膜的透光性能[J].工程科学与技术,2009,41(5):132-135. DOI：

Mao Jian, YIN Hai-shun, Tu Mingjing. Light Transmittance of AgOx Thin Films Prepared by Chemical Bath Deposition[J]. Advanced Engineering Sciences, 2009,41(5):132-135. DOI：

摘要

中文摘要: 采用化学沉积法在银－三乙醇胺(TEA)溶液中制备了AgOx 薄膜并研究了薄膜的紫外可见光透过性能。实验结果表明，沉积温度越低、沉积时间越短薄膜的厚度越小。AgOx 薄膜成份是由Ag、Ag2O和AgO组成的混合相，且薄膜中AgO含量随着第二次TEA与第一次TEA添加量的比值变化而变化。AgO含量越高、薄膜厚度越小，薄膜在紫外、可见光波段的透过率越大。薄膜在300 nm左右出现紫外透过峰，且随着AgO含量增加，峰强度增加，峰位置发生红移；在980 nm附近出现明显的透过峰，峰强随AgO含量增加而增大，最大透过率达到70%。

Abstract

Abstract:AgOx thin films were prepared in Ag＋-triethanolamine (TEA) aqueous solutions by using chemical bath deposition method

and the UV Vis light transmittance of AgOx thin film was investigated. The results showed that low films thickness is corresponded to short time or low temperature. AgOx film thickness is thinner when it is prepared at lower temperature or in shorter time. The crystallographic phase of deposited film is a mixture of Ag

Ag2O and AgO

and the AgO content of the AgOx films varies with the change of ratio of second TEA mass to first TEA mass. The light transmittance of film increases with the increase of AgO content in the films or the reduction of the film thickness. An obvious peak in the transmission spectrum was observed at a wavelength of about 300 nm

when the AgO content increases

the peak intensity increases and the peak position will show a red shift. Another peak in the transmission spectrum was observed clearly at a wavelength of about 980 nm

the peak intensity also increases with the AgO content increasing

and the maximum light transmittance is up to 70%.

关键词

化学沉积AgO薄膜光透过率

Keywords

chemical bath depositionAgOfilmlight transmittance

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