VOLTAMMETRIC AND SCANNING ELECTROCHEMICAL MICROSCOPIC STUDIES OF THE ADSORPTION-KINETICS AND SELF-ASSEMBLY OF N-ALKANETHIOL MONOLAYERS ON GOLD

The adsorption kinetics and self-assembly of hexadecyl mercaptan on go ld have been investigated by scanning electrochemical microscopy (SECM ), chronoamperometry, and cyclic voltammetry. The developed methodolog y allows one to evaluate the surface coverage and the average size of the defects in the monolayer film from the effective rate constant of electron transfer. Two kinetic regimes of self-assembly were identifie d: a rapid initial adsorption of hexadecyl mercaptan onto a clean gold surface from 5 mM solution (more than 90% coverage obtained in 1 to 5 min), and a slower subsequent annealing of a thiol monolayer resultin g in a more compact film. Typically, a long-chain-length thiol-treated gold surface acts as an electronically insulating surface after about 1 h. The SECM images of partially covered gold surfaces were always f eatureless, suggesting that the defects in the film were smaller than 0.5 mu m for any exposure time greater than or equal to 1 min.