Abstract
Co-sputtering of silicon and carbon in a hydrogenated plasma (20%Ar-80%H2) at temperatures, Ts, varying from 200°C to 600°C has been used to grow SiC thin films. We report on the influence of Ts on the crystallization, the ratio Si/C and the hydrogen content of the grown films. Film composition is determined by ion beam analysis via Rutherford backscattering spectrometry, nuclear reaction analysis via the 12C(d,p0)13C nuclear reaction and elastic recoil detection analysi(ERDA) for hydrogen content. Infrared absorption (IR) has been used to determine the crystalline fraction of the films and the concentration of the hydrogen bonded to Si or to C. Complementary to IR, bonding configuration has been also characterized by Raman spectroscopy. As Ts is increased, the crystalline fraction increases and the hydrogen content decreases, as observed by both ERDA and IR. It also appears that some films contain a few Si excess, probably located at the nanograin boundaries.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference15 articles.
1. H. Sung, G. Erkens, J. Funken, A. Voss, O. Lemmer and E. Kreutz: Surf. Coat. Technol. Vol. A12 (1994), p.541.
2. B-T Lee, D-K. Kim C-K. Moon and J.K. Kim: J. Mat. Res. Vol. 14 (1999), p.24.
3. N.A.E. Forhan, M.C. A Fantini and I. Pereyra: J. Non-Crystl. Sol. Vol. 338 (2004), p.119.
4. R. Rizk: Recent Res. Devel. Physics Vol. 5 (2004), p.1.
5. R. Doolittle: Nucl. Instrum. Meth. Vol. B15 (1986), p.227.
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