1. Tuning Molecule−Surface Interactions with Sub-Nanometer-Thick Covalently Bound Organic Monolayers.
- Author
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Nicholas Camillone III, Theodore R. Pak, Kaveh Adib, and Richard M. Osgood
- Subjects
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THIN films , *MONOMOLECULAR films , *MOLECULES , *SURFACES (Technology) - Abstract
Measurements of the thermal desorption of methyl bromide (MeBr) from bare and RS-functionalized GaAs(110), where R CH3and CH3CH2, reveal marked systematic changes in molecule−surface interactions. As the thickness of the organic spacer layer is increased, the electrostatic MeBr−GaAs(110) interaction decreases, lowering the activation energy for desorption, Ed, as well as decreasing the critical coverage required for nucleation of bulklike MeBr. On the CH3CH2S-functionalized surface, Edis lowered to a value roughly equal to that for desorption from three-dimensional (3-D) clusters; because the kinetics of desorption of isolated molecules differs from that for desorption from clusters, desorption of isolated molecules from the organic surface occurs at a lower temperature than desorption from the clusters. Thus, the “monolayer” desorption wave occurs at a lower temperature than the “multilayer” desorption wave. These results illustrate the role that organic chain length in nanometer-scale thin films can play in alteration of the delicate balance of interfacial interactions. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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