Self-assembled monolayers (SAMs) of 4-[4'-(phenylethynyl)-phenylethynyl]-be
nzenethiols on Au(111) surfaces are investigated by scanning tunneling micr
oscopy (STM) under ultrahigh vacuum. STM images reveal long-range order in
these SAMs with a rectangular unit cell containing two molecules. Ln high-r
esolution images, two new structural features are resolved, which cannot be
explained by the previously proposed (root 3 x 2 root 3)-R30 degrees comme
nsurate structure which consists of three equivalent domains. First, six eq
uivalent domains are present, and the orientations of these domains with re
spect to the three [121] directions of Au(111) are +/-5 degrees. Second, su
perstructures are observed. Periodical ridges are observed as a modulation
of the, STM imaging contrast within the ordered domains. A new model is pro
posed, which is very similar to the crystalline structure of p-terphenyl. T
he closest-packed row is aligned along the next-nearest neighbor or [121] d
irection of Au(111) with phenyl planes arranged in a herringbone fashion. T
he lack of simple commensurate structure of arenethiol SAMs is mainly attri
buted to intermolecular interactions.