氢等离子体辅助真空蒸发制备mc-Si薄膜

D. Miranda, T. Moura, R. J. Santana, G. R. Guimarães, Erich R. S. Karger, A. Diniz, J. Branco
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引用次数: 3

摘要

本文研究了等离子体辅助对电子束真空蒸发硅薄膜结构、组成及光隙的影响。在250°C的衬底温度下,在氩氢等离子体辅助下,将薄膜沉积在玻璃和硅片衬底上,以验证H2含量的影响。利用发射光谱研究了等离子体中存在的物质,并用拉曼光谱、红外光谱和紫外-可见光谱对薄膜进行了表征。结果表明:采用低温等离子体辅助真空蒸发法可沉积高含氢量的a-Si:H和mc-Si:H;考虑到等离子体中分子氢含量和原子氢含量的影响,结合a-Si化学退火理论,讨论了等离子体中结晶度、光学带隙和物质之间的关系。
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mc-Si thin films by hydrogen plasma assisted vacuum evaporation
In the present work the effect of auxiliary plasma assistance on the structure, composition and optical gap of e-beam vacuum evaporated silicon thin films is investigated. The films were deposited over glass and Silicon wafer substrates, under argon-hydrogen plasma assisted, to verify also the effect of the H2 content, at substrate temperature of 250 °C. The species present in the plasmas were investigated using Optical Emission Spectroscopy, while the films were characterized by Raman, FTIR and UV-vis spectroscopy. The results show that the deposition of a-Si:H with high hydrogen content and mc-Si:H through the used low temperature plasma assisted vacuum evaporation. The relationship between crystallinity, optical band gap and species in the Plasma is discussed, considering the effect of molecular and atomic hydrogen content in the plasma, as well as a-Si chemical annealing theories.
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