Electrochemical Evaluation and Enhancement via Heterogeneous Exchange of the Passivating Properties and Stability of Self-Assembled Monolayers Derived from the Rigid Rod Arenethiols, X−C6H4−C⋮C−C6H4−C⋮C−C6H4−SH (X = H and F)

The passivating properties of self-assembled monolayers derived from the chemisorption of the rigid rod arenethiols 1a−b on Au(111) have been probed by electrochemical techniques in an aqueous electrolyte. These studies suggest that the pure monolayers of 1a−b possess a high density of unfilled defect sites, potentially as a result of the solvent required for their preparation. However, a heterogeneous “patching” process, which involves both addition of hexadecanethiol at defect sites and exchange with the original monolayer, provides mixed monolayers that have superior passivating properties and which X-ray photoelectron spectroscopy and grazing-angle IR reveal to be still predominantly composed of 1a−b. The ability to reproducibly obtain these highly blocking mixed monolayers in which 1a−b is the primary component now provides a means by which to investigate, at the next level of study, electron transfer/tunneling through these novel interfacial barriers.