Collision-induced annealing of octanethiol self-assembled monolayers by high-kinetic-energy xenon atoms

摘要

Collisions with high-energy xenon atoms (1.3 eV) induce structural changes in octanethiol self-assembled monolayers on Au(111).These changes are characterized at the molecular scale using an in situ scanning tunneling microscope.Gas-surface collisions induce three types of structural transformations:domain boundary annealing,vacancy island diffusion,and phase changes.Collision-induced changes that occur tend to increase order and create more stable structures on the surface.We propose a mechanism where monolayer transformations are driven by large amounts of vibrational energy localized in the alkanethiol molecules.Because we monitor incremental changes over small regions of the surface,we can obtain structural information about octanethiol monolayers that cannot be observed directly in scanning tunneling microscopy images.