Abstract
Scanning-tunneling-microscopy observations on an Al(111) surface reveal that O adatoms at 300 K are practically immobile. Low-coverage overlayers formed by dissociative chemisorption of consist essentially only of single isolated atoms rather than of pairs of adjacent atoms. Hence, upon dissociation, at least part of the chemisorption energy must be transformed into translational energy parallel to the surface which causes the two O atoms formed to separate from each other by at least 80 Å before the excess energy is dissipated. The lifetime of these ‘‘hot’’ adatoms is estimated to be on the order of ≥1 ps.
- Received 9 September 1991
DOI:https://doi.org/10.1103/PhysRevLett.68.624
©1992 American Physical Society