Physical properties of carbon films obtained by methane pyrolysis in an electric field

被引:0
|
作者
S. K. Brantov
A. N. Tereshchenko
E. A. Shteinman
E. B. Yakimov
机构
[1] Russian Academy of Sciences,Institute of Solid
[2] Russian Academy of Sciences,State Physics
来源
Technical Physics | 2016年 / 61卷
关键词
Carbon Film; Diamond Film; Working Chamber; Ultradisperse Diamond; Methane Pyrolysis;
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学科分类号
摘要
A method of synthesizing carbon films on single-crystal silicon substrates by methane pyrolysis in an electrical field is suggested. The pressure and temperature arising in a working chamber when the substrate is exposed to C–4 ions during pyrolysis are measured. Ion bombardment generates nuclei in the form of fibers about 2 μm in diameter providing the growth of a polycrystalline film. The resulting material is examined using electron microscopy and photo- and cathodoluminescence. Synthesized films are a composite material the matrix of which contains nanoclusters of a dissimilar crystalline nature. The effect of considerable two-stage decrease in the resistivity of the film material with increasing temperature from 300 to 1750 K is discovered. This points to the semiconducting properties of thick carbon films.
引用
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页码:428 / 431
页数:3
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