Carbonnitride films were synthesized by ionbeam assisted sputtering. A graphite target was sputtered by argon or nitrogen ions and the growing film was simultaneously bombarded by a focused nitrogen ionbeam of energies between 100–800 eV at 100 and 400 °C. It has been found that film growth occurs only if the ion-to-atom arrival ratio is smaller than a critical value of about 1.8 and it appears to be almost independent of the assisting beam energy. This effect, limiting the film growth, is a consequence of a chemical reaction between carbon and nitrogen forming volatile CN compounds. Experimental evidence was obtained by monitoring the gas evolved during the deposition process with a quadrupole gas analyzer. The maximum value of nitrogen content measured by Auger electron spectroscopy was about 35 at.%. All films were investigated by Fourier transform infrared spectroscopy and X-ray photoelectron spectroscopy. The latter technique shows a preferential bonding of N to sp3-hybridized C. Hardness measurements with values up to 20 GPa were measured using a depth sensing nanoindenter.
Ion beam deposited carbon nitride films : characterization and identification of chemical sputtering / P. Hammer, M.A. Baker, C. Lenardi, W. Gissler. - In: THIN SOLID FILMS. - ISSN 0040-6090. - 290/291:(1996 Dec 15), pp. 107-111. ((Intervento presentato al 23. convegno International conference on metallurgical coatings and thin films tenutosi a San Diego (California) nel 199 [10.1016/S0040-6090(96)09061-X].
Ion beam deposited carbon nitride films : characterization and identification of chemical sputtering
C. LenardiPenultimo
;
1996
Abstract
Carbonnitride films were synthesized by ionbeam assisted sputtering. A graphite target was sputtered by argon or nitrogen ions and the growing film was simultaneously bombarded by a focused nitrogen ionbeam of energies between 100–800 eV at 100 and 400 °C. It has been found that film growth occurs only if the ion-to-atom arrival ratio is smaller than a critical value of about 1.8 and it appears to be almost independent of the assisting beam energy. This effect, limiting the film growth, is a consequence of a chemical reaction between carbon and nitrogen forming volatile CN compounds. Experimental evidence was obtained by monitoring the gas evolved during the deposition process with a quadrupole gas analyzer. The maximum value of nitrogen content measured by Auger electron spectroscopy was about 35 at.%. All films were investigated by Fourier transform infrared spectroscopy and X-ray photoelectron spectroscopy. The latter technique shows a preferential bonding of N to sp3-hybridized C. Hardness measurements with values up to 20 GPa were measured using a depth sensing nanoindenter.
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