A. Vittadini et al., BINDING AND DIFFUSION OF HYDROXYL RADICALS ON SI(100) - A FIRST-PRINCIPLES STUDY, Physical review. B, Condensed matter, 52(8), 1995, pp. 5885-5889
We present a local density functional investigation of the adsorption
geometry and the surface diffusion activation energies of hydroxyl (OH
) radicals resulting from dissociative water adsorption on Si(100)-2 x
1. Similarly to atomic hydrogen, OH prefers to bind to a single surfa
ce silicon atom. Due to both dative interactions with surface dangling
bonds, and to adsorbate-adsorbate hydrogen-bond-like interactions, th
e O-H bonds tend to be oriented perpendicularly to the dimer direction
, in agreement with electron stimulated desorption ion angular distrib
ution data. The energetics of OH diffusion, investigated both on a cle
an and on a saturated surface, is rather similar to that of hydrogen,
with slightly lower barriers. In particular, the intradimer barrier is
found to be similar to 0.2 eV lower, which implies that room-temperat
ure intradimer adsorbate oscillations should occur similar to 10(3) ti
mes faster for OH. The absolute value of this barrier (0.9 eV) is in a
greement with experimental scanning tunneling microscopy observations.