Water adsorption and capillary bridge formation on silica micro-particle layers modified with perfluorinated organosilane monolayers

I. Giner, B. Torun, Y. Han, B. Duderija, D. Meinderink, A.G. Orive, M.T. de los Arcos de Pedro, C. Weinberger, M. Tiemann, H.-J. Schmid, G. Grundmeier, Applied Surface Science (2019) 873–879.

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Journal Article | Published | English
Author
Giner, Ignacio; Torun, Boray; Han, Yan; Duderija, BelmaLibreCat; Meinderink, Dennis; Orive, Alejandro González; de los Arcos de Pedro, Maria TeresaLibreCat; Weinberger, Christian; Tiemann, MichaelLibreCat ; Schmid, Hans-JoachimLibreCat ; Grundmeier, GuidoLibreCat
Abstract
Monodisperse micron-sized silica particle monolayers deposited onto plasma-grown SiOx-ultra-thin films have been used as reference systems to investigate wetting, water adsorption and capillary bridge formation as a function of silica surface functionalization. 1H,1H, 2H,2H perfluorooctyltriethoxysil (FOTS) monolayers, have been deposited on the respective surfaces by means of chemical vapor deposition resulting in macroscopically low energy surfaces. X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared (FTIR) reflection absorption spectroscopy confirmed the monolayer formation. Water adsorption isotherms were studied by a combination of in-situ FTIR reflection spectroscopy and quartz crystal microbalance (QCM) while macroscopic wetting was analysed by contact angle measurements. The comparative data evaluation indicates that the macroscopic wetting behaviour was changed as expected, however, that water nanodroplets formed both at intrinsic defects of the FOTS monolayer and at the FOTS/SiOx interface. Capillary bridges of liquid water are dominantly formed in the confined particle contact areas and between surface asperities on the particles. The comparison of wetting, adsorption and capillary bridge formation shows that the hydrophobization of porous materials by organosilane monolayers leads to the formation of morphology dependent nanoscopic defects that act as sites for preferential capillary bridge formation.
Publishing Year
Journal Title
Applied Surface Science
Page
873-879
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Giner I, Torun B, Han Y, et al. Water adsorption and capillary bridge formation on silica micro-particle layers modified with perfluorinated organosilane monolayers. Applied Surface Science. Published online 2019:873-879. doi:10.1016/j.apsusc.2018.12.221
Giner, I., Torun, B., Han, Y., Duderija, B., Meinderink, D., Orive, A. G., de los Arcos de Pedro, M. T., Weinberger, C., Tiemann, M., Schmid, H.-J., & Grundmeier, G. (2019). Water adsorption and capillary bridge formation on silica micro-particle layers modified with perfluorinated organosilane monolayers. Applied Surface Science, 873–879. https://doi.org/10.1016/j.apsusc.2018.12.221
@article{Giner_Torun_Han_Duderija_Meinderink_Orive_de los Arcos de Pedro_Weinberger_Tiemann_Schmid_et al._2019, title={Water adsorption and capillary bridge formation on silica micro-particle layers modified with perfluorinated organosilane monolayers}, DOI={10.1016/j.apsusc.2018.12.221}, journal={Applied Surface Science}, author={Giner, Ignacio and Torun, Boray and Han, Yan and Duderija, Belma and Meinderink, Dennis and Orive, Alejandro González and de los Arcos de Pedro, Maria Teresa and Weinberger, Christian and Tiemann, Michael and Schmid, Hans-Joachim and et al.}, year={2019}, pages={873–879} }
Giner, Ignacio, Boray Torun, Yan Han, Belma Duderija, Dennis Meinderink, Alejandro González Orive, Maria Teresa de los Arcos de Pedro, et al. “Water Adsorption and Capillary Bridge Formation on Silica Micro-Particle Layers Modified with Perfluorinated Organosilane Monolayers.” Applied Surface Science, 2019, 873–79. https://doi.org/10.1016/j.apsusc.2018.12.221.
I. Giner et al., “Water adsorption and capillary bridge formation on silica micro-particle layers modified with perfluorinated organosilane monolayers,” Applied Surface Science, pp. 873–879, 2019, doi: 10.1016/j.apsusc.2018.12.221.
Giner, Ignacio, et al. “Water Adsorption and Capillary Bridge Formation on Silica Micro-Particle Layers Modified with Perfluorinated Organosilane Monolayers.” Applied Surface Science, 2019, pp. 873–79, doi:10.1016/j.apsusc.2018.12.221.

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