Scale-Bridging Thermodynamic and Kinetic Simulation (STKS)
Structure and flow of droplets on solid surfaces
P. Müller-Buschbaum, D. Magerl, R. Hengstler, J.-F. Moulin, V. Körstgens, A. Diethert, J. Perlich, S.V. Roth, M. Burghammer, C. Riekel, M. Gross, F. Varnik, P. Uhlmann, M. Stamm, J. M. Feldkamp, C. G. Schroer.
Journal of Physics: Condensed Matter, IOP Publishing, 23, 184111, (2011)
The structure and ﬂow of droplets on solid surfaces is investigated with imaging and scattering techniques and compared to simulations. To access nanostructures at the liquid–solid interface advanced scattering techniques such as grazing incidence small-angle x-ray scattering (GISAXS) with micro-and nanometer-sized beams, GISAXS and in situ imaging ellipsometry and GISAXS tomography are used. Using gold nanoparticle suspensions, structures observed in the wetting area due to deposition are probed in situ during the drying of the droplets. After drying, nanostructures in the wetting area and inside the dried droplets are monitored. In addition to drying, a macroscopic movement of droplets is caused by body forces acting on an inclined substrate. The complexity of the solid surfaces is increased from simple silicon substrates to binary polymer brushes, which undergo a switching due to the liquid in the droplet. Nanostructures introduced in the polymer brush due to the movement of droplets are observed.