Publikation: Molecular Effects in Ultra-Thin Liquid Film Spreading Dynamics
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The spreading dynamics of silicon oil films at thickness in the monolayer regime is studied by monitoring the evolution of the coverage profile with optically excited surface plasmons. While for thicknesses above one monolayer the observed profiles agree well with the theory of viscous flow spreading, strong deviations are observed at smaller coverages which point to a diffusivity which decreases with decreasing covetage. This can be qualitatively explained in the framework of the excluded area interaction of the chain molecules. When the coverage decreases, the configurational entropy of the individual molecules changes strongly, leading to a substantially enhanced apparent viscosity for submonolayer films.
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HERMINGHAUS, Stephan, Ulrich SIGEL, Uwe ALBRECHT, Paul LEIDERER, 1995. Molecular Effects in Ultra-Thin Liquid Film Spreading Dynamics. Short and long chains at interfaces. Villars sur Ollon, Switzerland, 1995. In: Short and long chains at interfaces : proceedings of the XXXth Rencontres de Moriond, Villars sur Ollon, Switzerland, 1995. 1995, pp. 295-301BibTex
@inproceedings{Herminghaus1995Molec-4879, year={1995}, title={Molecular Effects in Ultra-Thin Liquid Film Spreading Dynamics}, booktitle={Short and long chains at interfaces : proceedings of the XXXth Rencontres de Moriond, Villars sur Ollon, Switzerland, 1995}, pages={295--301}, author={Herminghaus, Stephan and Sigel, Ulrich and Albrecht, Uwe and Leiderer, Paul} }
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