Silicon carbonitride films produced by remote hydrogen microwave plasma CVD using a (dimethylamino)dimethylsilane precursor

2005 
Amorphous hydrogenated silicon carbonitride (a-Si:C:N:H) films were produced by remote microwave hydrogen plasma CVD (RP-CVD) using (dimethylamino)dimethylsilane as a single-source precursor. The reactivity of the precursor with atomic hydrogen was characterized using (dimethylamino)trimethylsilane as a model compound. The effects of the substrate temperature (T S ) on the kinetics of the RP-CVD process, and the chemical composition and structure of the resulting film, have been investigated. The temperature dependencies of the mass- and thickness-based film growth rates imply that, for a low substrate temperature range (T S = 30-100 °C), film growth is limited by desorption of film-forming precursors, whereas in a high substrate temperature range (T S = 100-400 °C) film growth is independent of the temperature, and the rate of RP-CVD is mass-transport limited. The increase of the substrate temperature from 30 °C to 400 °C causes the elimination of organic moieties from the film and the formation of a Si-N and Si-C network structure. The films produced at Ts = 300 °C were found to be dense materials exhibiting excellent morphological homogeneity, high hardness, and an extremely low friction coefficient. In view of these properties, a-Si:C:N:H films produced by RP-CVD seem to be promising coatings for tribological use.
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