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电极间距对μc-Si_(1-x)Ge_x:H薄膜结构特性的影响
引用本文:曹宇,张建军,严干贵,倪牮,李天微,黄振华,赵颖.电极间距对μc-Si_(1-x)Ge_x:H薄膜结构特性的影响[J].物理学报,2014,63(7):76801-076801.
作者姓名:曹宇  张建军  严干贵  倪牮  李天微  黄振华  赵颖
作者单位:1. 东北电力大学电气工程学院, 吉林 132012;2. 南开大学光电子薄膜器件与技术研究所, 光电信息技术科学教育部重点实验室, 光电子薄膜器件与技术天津市重点实验室, 天津 300071
基金项目:国家重点基础研究发展计划(批准号:2011CBA00705,2011CBA00706,2011CBA00707);国家自然科学基金(批准号:61377031);天津市应用基础及前沿技术研究计划(批准号:12JCQNJC01000);东北电力大学博士科研启动基金(批准号:BSJXM-201304)资助的课题~~
摘    要:采用射频等离子体增强化学气相沉积(RF-PECVD)技术,使用SiH4加GeH4的反应气源组合生长微晶硅锗(μc-Si1-x Gex:H)薄膜.研究了电极间距对μc-Si1-x Gex:H薄膜结构特性的影响.发现薄膜中的Ge含量随电极间距的降低逐渐增加.当电极间距降至7 mm时,μc-Si1-x Gex:H薄膜具有较大的晶粒尺寸并呈现较强的(220)择优取向,同时具有较低的微结构因子.通过薄膜结构特性的变化分析了反应气源的分解状态,认为Ge含量的提高主要是SiH4的分解率降低所导致的.在较窄的电极间距(7 mm)下,等离子体中GeH3基团的比例较大,增强了Ge前驱物的扩散能力,使μc-Si1-x Gex:H薄膜的质量得到提高.

关 键 词:微晶硅锗  电极间距  滞留时间  射频等离子体增强化学气相沉积
收稿时间:2013-10-13

Influences of electrode separation on structural properties of μc-Si1-xGex:H thin films
Cao Yu,Zhang Jian-Jun,Yan Gan-Gui,Ni Jian,Li Tian-Wei,Huang Zhen-Hua,Zhao Ying.Influences of electrode separation on structural properties of μc-Si1-xGex:H thin films[J].Acta Physica Sinica,2014,63(7):76801-076801.
Authors:Cao Yu  Zhang Jian-Jun  Yan Gan-Gui  Ni Jian  Li Tian-Wei  Huang Zhen-Hua  Zhao Ying
Abstract:Hydrogenated microcrystalline silicon germanium (μc-Si1-xGex:H) thin films have been prepared by radio frequency plasma-enhanced chemical vapor deposition (RF-PECVD) using a mixture of SiH4 and GeH4 as the reactive gases. Effects of electrode separation on the structural properties of μc-Si1-xGex:H thin films have been investigated. Results show that reduction of the electrode separation can increase the Ge content in the films. Moreover, μc-Si1-xGex:H thin film deposited at a lower electrode separation of 7 mm possesses not only a stronger (220) orientation and a larger grain size, but also a lower microstructural factor. Then, the decomposition characteristics of the reactive gases are analyzed according to the variation of the structural properties of the μc-Si1-xGex:H thin films. It is found that the increase of the Ge content is due to the decrease of the SiH4 decomposition rate in the plasma. While the better film quality obtained at the lower electrode separation is attributed to the enhancement of the diffusibility of the Ge precursors caused by improving the proportion of GeH3 radicals
Keywords: microcrystalline silicon germanium electrode separation residence time radio frequency plasma enhanced chemical vapor deposition
Keywords:microcrystalline silicon germanium  electrode separation  residence time  radio frequency plasma enhanced chemical vapor deposition
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