6533b86ffe1ef96bd12ce8f6
RESEARCH PRODUCT
Wetting of mesoscopic soft cylinders: structure and layering transitions.
Heiko AhrensManfred SchmidtNorbert HugenbergChristiane A. Helmsubject
chemistry.chemical_classificationDouble layer (biology)Phase transitionMesoscopic physicsMaterials scienceCondensed matter physicsPolymerCondensed Matter::Soft Condensed MatterchemistryMonolayerCylinderWettingComposite materialLayeringdescription
The wetting of soft mesoscopic long-chain particles is studied. As a model system, a cylindrical brush with poly(vinyl)pyridine side chains on the water surface is characterized by isotherms and x-ray reflectivity. The forces from the two planar interfaces and the intra- and interparticle interactions are all of comparable magnitude. Two layering transitions occur, one from the monolayer to the double layer, the next to a homogeneous multilayer. The hard wall from which layering starts is the smooth polymer/air interface. Indeed, they particles in the top layer of both the double- and the multilayer have their cylinder axis parallel to the surface and are laterally compressed. In contrast, the polymer/water interface is diffuse due to brush swelling. Generally, the long-chain particles adjacent to the respective interfaces do not maintain their circular diameters. The thickness of the monolayer can be varied by a factor 3.5, up to 53 \AA{}. An additional phase transition occurs within the monolayer, which is attributed to a change of the side chains from a flattened to a compressed state at constant volume. Atmoic force microscope images of the monolayer transferred onto a solid indicate local cylinder alignment.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1998-12-21 | Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics |