Papers Published

1. Stoner, B.R. and Ma, G.-H.M. and Wolter, S.D. and Glass, J.T., Characterization of bias-enhanced nucleation of diamond on silicon by in vacuo surface analysis and transmission electron microscopy, Phys. Rev. B, Condens. Matter (USA), vol. 45 no. 19 (1992), pp. 11067 - 84 [PhysRevB.45.11067] .
   (last updated on 2007/04/17)

   Abstract:
   An in-depth study has been performed of the nucleation of diamond on silicon by bias-enhanced microwave plasma chemical vapor deposition. Substrates were pretreated by negative biasing in a 2% methane-hydrogen plasma. The bias pretreatment enhanced the nucleation density on unscratched silicon wafers up to 10¹¹ cm^-2 as compared with 10⁷ cm^-2 on scratched wafers. In vacuo surface analysis including X-ray photoelectron spectroscopy (XPS), Auger electron spectroscopy, and combined XPS and electron-energy-loss spectroscopy were used to study systematically both the initial-nucleation and growth processes. High-resolution cross-sectional transmission electron microscopy (TEM) was used to study the physical and structural characteristics of the diamond-silicon interface as well as to complement and enhance the in vacuo surface-analytical results. Raman spectroscopy confirmed that diamond was actually nucleating during the bias pretreatment. Scanning electron microscopy has shown that once the bias is turned off, and conventional growth is conducted, diamond grows on the existing nuclei and no continued nucleation occurs. If the bias is left on throughout the entire deposition, the resulting film will be of much poorer quality than if the bias had been turned off and conventional growth allowed to begin. Intermittent surface analysis showed that a complete silicon carbide layer developed before diamond could be detected. High-resolution cross-section TEM confirmed that the interfacial layer was amorphous and varied in thickness from 10 to 100 Å. A small amount of amorphous carbon is detected on the surface of the silicon carbide and it is believed to play a major role in the nucleation sequence. A model is proposed to help explain bias-enhanced nucleation on silicon, in hopes that this will improve the understanding of diamond nucleation, in general, and eventually result in the nucleation and growth of better-quality diamond films

   Keywords:
   Auger effect;diamond;nucleation;plasma CVD;Raman spectra of inorganic solids;scanning electron microscope examination of materials;thin films;transmission electron microscope examination of materials;X-ray photoelectron spectra;