Abstract
Ternary Boron–Nitrogen–Carbon (B–N–C) thin films were deposited, onto silicon substrates, by reactive radio frequency (RF) sputtering from a boron carbide (B 4C) target in a gas mixture of nitrogen and argon. The influence of the RF power ( P RF) on the structure and the chemical composition of these films are studied by Fourier transform Infrared spectroscopy (FTIR) and X-ray photoelectron spectroscopy (XPS) measurements. The two techniques reveal the presence of B, C and N atoms in the deposited films. The presence of nitrogen in the atmosphere of the deposition chamber produces ternary B–N–C films composed mainly with a mixture of B–N and C N bonds as revealed by these techniques. The boron content increases while carbon and nitrogen contents decrease with P RF. The higher proportion of boron atoms produced a strong contribution of the boron nitride in the final compound B–N–C films.
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