This article has summarized the applications of the hydrogenated amorphous silicon (a-Si: h) to photoreceptor of the electrophotography.
本文概述了氢化非晶硅作为静电复印感光膜的应用。
Plasma chemical vapor deposition in silane radio frequency glow discharge is a main fabrication technology of hydrogenated amorphous silicon (a-Si: h) films.
射频辉光放电硅烷等离子体化学汽相沉积是制备氢化非晶硅薄膜的主要工艺技术。
This paper analyses the atomic correlations in crystalline and amorphous si and Ge and discusses their relationship. Expressions for the atomic correlations are presented.
本文讨论存在于晶态和非晶态硅(锗)中的原子相关性及二者之间的联系,给出原子相关性的定量表达式。
This paper firstly gives a brief review about the history of amorphous semiconductor and the rapid progress in hydrogenated amorphous silicon (a-Si: h) film in recent years.
本文首先简要地回顾了非晶半导体的历史和近年来含氢非晶硅瞋的迅速进展。
Patterned crystallization of amorphous silicon (a-Si) on substrates of glass is very important for the fabrication of thin film transistor used in active matrix liquid crystal displays.
以玻璃为基底的非晶硅图形式结晶,对于研制用于矩阵液晶显示的薄膜半导体具有重要意义。
The present invention discloses a method for making the hydrogenated si containing hydrogenated amorphous silicon and hydrogenated nanocrystalline silicon has real intrinsic capability.
本发明公开了一个使包括氢化非晶硅和氢化纳米晶硅的氢化硅薄膜具有真正本征性的方法。
They also have hopes that when the efficiency of the amorphous silicon photovoltaic cells improves in the future, it may become possible to mass-produce the si PV cells by using a roll-to-roll method.
他们希望将来,当非晶态硅光伏电池的光电转化效率提高后,能利用卷到卷式的生产方式进行大规模的硅光伏电池的生产。
The stress impedance (SI) effect in Co based amorphous wire is studied.
研究了钴基非晶丝材料显示的应力电阻抗(SI)效应。
The results indicate that the amorphous film gradually transfers into microcrystalline Si, and the grain size is nanometer order of magnitude.
结果表明:薄膜由非晶硅结构转变为微晶硅结构,微晶硅晶粒尺寸在纳米级。
The lumpy amorphous Pd-Ni-Si-P alloy has certain plastic deformation capacity and high yield strength, and possesses excellent application foreground in different fields.
本发明所提出的非晶合金具有较高的屈服强度、一定的塑性变形能力,在众多领域具有良好的应用前景。
The lumpy amorphous Pd-Ni-Si-P alloy has certain plastic deformation capacity and high yield strength, and possesses excellent application foreground in different fields.
本发明所提出的非晶合金具有较高的屈服强度、一定的塑性变形能力,在众多领域具有良好的应用前景。
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