Please use this identifier to cite or link to this item:
Title: Nanoscale water condensation on click-functionalized self-assembled monolayers
Authors: James, M
Ciampi, S
Darwish, TA
Hanley, TL
Sylvester, SO
Gooding, JJ
Keywords: Molecular dynamics method
Vapor condensation
Issue Date: 6-Sep-2011
Publisher: American Chemical Society
Citation: James, M., Ciampi, S., Darwish, T. A., Hanley, T. L., Sylvester, S. O., & Gooding, J. J. (2011). Nanoscale water condensation on click-functionalized self-assembled monolayers. Langmuir, 27(17), 10753-10762. doi:10.1021/la202359c
Abstract: We have examined the nanoscale adsorption of molecular water under ambient conditions onto a series of well-characterized functionalized surfaces produced by Cu(I)-catalyzed alkyne–azide cycloaddition (CuAAC or “click†) reactions on alkyne-terminated self-assembled monolayers on silicon. Water contact angle (CA) measurements reveal a range of macroscopic hydrophilicity that does not correlate with the tendency of these surfaces to adsorb water at the molecular level. X-ray reflectometry has been used to follow the kinetics of water adsorption on these “click†-functionalized surfaces, and also shows that dense continuous molecular water layers are formed over 30 h. For example, a highly hydrophilic surface, functionalized by an oligo(ethylene glycol) moiety (with a CA = 34°) showed 2.9 Ã… of adsorbed water after 30 h, while the almost hydrophobic underlying alkyne-terminated monolayer (CA = 84°) showed 5.6 Ã… of adsorbed water over the same period. While this study highlights the capacity of X-ray reflectometry to study the structure of adsorbed water on these surfaces, it should also serve as a warning for those intending to characterize self-assembled monolayers and functionalized surfaces to avoid contamination by even trace amounts of water vapor. Moreover, contact angle measurements alone cannot be relied upon to predict the likely degree of moisture uptake on such surfaces.© 2011, American Chemical Society
Gov't Doc #: 3888
ISSN: 0743-7463
Appears in Collections:Journal Articles

Files in This Item:
There are no files associated with this item.

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.