Self-assembled structures of alkanethiols on gold-coated cantilever tips and substrates for atomic force microscopy: Molecular organisation and conditions for reproducible deposition |
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| Authors: | Dimitrios A. Lamprou Thomas G. Nevell Colin R. Willis |
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| Affiliation: | a Biomaterials and Drug Delivery Group, School of Pharmacy and Biomedical Sciences, University of Portsmouth, St. Michael's Building, White Swan Road, Portsmouth PO1 2DT, UK
b Physical Sciences Department, Dstl Porton Down, Salisbury SP4 0JQ, UK |
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| Abstract: | Measurements of surface-liquid interactions (contact-angle goniometry) and tip-surface adhesion forces (atomic force microscopy) combined with infrared spectroscopic studies have been used to investigate surface-preparation and solution-deposition conditions for the reproducible formation of self-assembled molecular structures on gold-coated tips and substrates for atomic force microscopy. Preliminary data show that surface-saturated self-assembled monolayers form reproducibly on prolonged (>20 h) exposure of gold-coated glass substrates to ethanolic solutions of ω-functionalised alkanethiols in the concentration range 80-160 mmol dm−3. The data also show that exposure for 16 h to alkanethiol concentrations in the range 160-240 mmol dm−3 promote bilayer formation whereas concentrations of 240-320 mmol dm−3 result in the deposition of multilayers, the average orientation of which is parallel to that of the first molecular layer; the use of parent 1-undecanethiol solutions at concentrations of 1-80 mmol dm−3 results in incomplete monolayer coverage. |
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| Keywords: | Alkanethiols Self-assembly Atomic force microscopy Infrared spectroscopy Surface energy Multilayer deposition |
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