Z. Mrázková , K. Postava , A. Torres-Rios , M. Foldyna , P. Roca i Cabarrocas , J. Pištora
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引用次数: 6
摘要
本文研究了低温(175℃)等离子体增强化学气相沉积在柔性低成本铁镍合金衬底上生长的氢化微晶硅薄膜的光学模型。这种材料在太阳能电池中起到吸收剂的作用,因此它对太阳能电池的性能有直接的影响。由于氢化微晶硅薄膜的结晶度和材料质量在生长过程中不断变化,沉积的薄膜是不均匀的,结构相当复杂。利用实时椭偏光谱技术跟踪了薄膜成分的变化。在光子能量为2.8 ~ 4.5 eV / 50秒的情况下,利用原位椭偏数据研究了氢化微晶硅薄膜中单晶硅部分的演化过程。
Optical Modeling of Microcrystalline Silicon Deposited by Plasma-Enhanced Chemical Vapor Deposition on Low-Cost Iron-Nickel Substrates for Photovoltaic Applications
This paper deals with the optical modeling of thin hydrogenated microcrystalline silicon films grown on flexible low-cost iron-nickel alloy substrates by low-temperature (175 °C) plasma-enhanced chemical vapor deposition. This material serves as the absorber in solar cells and hence it has direct impact on the resulting solar cell performance. Since the crystallinity and the material quality of hydrogenated microcrystalline silicon films evolve during the growth, the deposited film is inhomogeneous, with a rather complex structure. Real-time spectroscopic ellipsometry has been used to trace the changing composition of the films. In-situ ellipsometric data taken for photon energies from 2.8 to 4.5 eV every 50 seconds enabled us to study the evolution of the monocrystalline silicon fraction of the hydrogenated microcrystalline silicon films.
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