Abstract

Scanning tunneling spectroscopy was performed on small pristine silicon clusters on graphite. For the investigated clusters with sizes between 2.5 and 40 \AA{}, two distinct size regimes, were found: below 15 \AA{}, Si clusters show energy gaps up to 450 meV, above that size only zero gaps are observed. We conclude that a structural transition occurs at the size of 15 \AA{}. Larger clusters assume the diamond structure, and the zero gaps originate from the dangling bonds on the cluster surface. Smaller clusters appear in high-coordination structures, which have eliminated the dangling bonds.