Properties of Hydro-Fluorinated Amorphous Silicon-Carbide Produced by Intermediate Species SiF2

Abstract

A new type of hydro-fluorinated amorphous silicon-carbide (a-SiC:F:H) film was produced by the glow-discharge decomposition of intermediate-species SiF₂, H₂ and CF₄ gas mixture or SiF₂, H₂ and CH₄ gas mixture. Boron and phosphorus were added to this a-SiC:F:H by mixing B₂H₆ and PH₃ with the gas mixtures. The optical, structural and electrical properties of the a-SiC:F:H films were studied experimentally, and it was found that the optical band gap of a-SiC:F:H can be increased up to 2.2 eV by increasing the carbon content without apparent degradation of film properties such as the photo-conductivity or photo-sensitivity, and also that the conductivity of impurity-doped a-SiC:F:H can be increased above that of the similar hydrogenated amorphous silicon-carbide (a-SiC:H) produced from a CH₄ and SiH₄ gas mixture.