Growth and properties of CVD diamond films grown under H_2S addition

摘要

The influence of H_2S on the CVD diamond growth, the sulfur incorporation and the electronic properties of sulfur containing homoepitaxial diamond films were studied. Laser reflection interferometry (LRI) in combination with mass spectroscopy (MS) showed that H_2S modifies the gas phase chemistry by reducing the concentration of CH_(chi) species. As a consequence thereof, at high deposition temperatures the growth rate decreased. At lower substrate temperatures, the observed increase in the growth rate after sulfur addition indicates that these gas phase effects are overcompensated by processes at the growing diamond surface. The incorporation coefficient of sulfur into the definitely boron free diamond films was very low (less than 10~(-6)). Incorporation seems to be enhanced by a reduction of the substrate temperature, by the presence of Si and, most effectively, by addition of CO_2. For 0.5% CO_2 in the gas mixture a maximum S concentration of 480 ppm (9 X 10~(19) /cm~3) corresponding to an incorporation coefficient of 6 X 10~(-4) was attained. Even for the highest H_2S concentrations (nearly 1%) the deposited diamond films preserve their excellent quality as judged from mu-Raman measurements. The electrical properties were not changed by the S incorporation. No values below 1.0 eV have been measured which argues against doping.