High-purity silicon oxide films have been deposited at near room temperatur
e by remote-type RF plasma-enhanced CVD using a mixture of tetramethoxysila
ne and oxygen. The effects of the partial pressure ratio of oxygen, RF powe
r, total pressure and substrate position on film composition were studied.
The chemical composition and bonding state of the films deposited were eval
uated with Fourier-transform infrared spectroscopy and X-ray photoelectron
spectroscopy, and the film surface was observed by atomic force microscopy.
It was found that the amount of carbon impurities in deposited films arisi
ng from the source material could be reduced by increasing the oxygen parti
al pressure ratio. The absorption bands due to hydroxyl groups became marke
dly smaller when either the RF power was increased from 100 to 500 W or the
distance between the center of the coil and the substrate was decreased fr
om 400 to 200 nun. Films deposited under the optimal conditions contained n
o Si-CH3, Si-O-CH3, Si-OH or Si-H bonds, and the compositional quality was
very close to that of films obtained by thermal oxidation. (C) 2001 Elsevie
r Science B.V. All rights reserved.