Add to ORKGWe discuss the adsorption of polymer gels on flat surfaces. Even in cases of complete wetting, where the spreading power S is positive and where an equivalent liquid would spread, the elastic stresses due to the gel deformation upon adsorption oppose spreading. The competition between elasticity characterized by the bulk shear modulus G and capillarity, characterized by the spreading power S, defines a typical length scale 1 = S/G for the deformation in the gel. Macroscopic gels larger than 1 deform only at their edges over a region of size 1. Microscopic gels show a finite deformation despite the elastic stresses. These results can be compared to confined polymer brushes
Among soft active materials, i.e. systems that respond to a non-mechanical stimulus (electric field,...
A brush-like structure emerges from the stretching of long polymer chains, densely grafted on to the...
The aim of this paper is to determine how microgels adsorb at a model oil–water interface and how t...
We discuss the adsorption of polymer gels on flat surfaces. Even in cases of complete wetting, where...
We discuss the adsorption of polymer gels on flat surfaces. Even in cases of complete wetting where ...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
Polymers adsorbing from a dilute solution onto the solvent-vapor interface generate a nonzero surfac...
The adsorption of a single polymer to a flat surface in shear is investigated using Brownian hydrody...
Interaction between polymers and soft-matter surfaces in the biological cell is a common yet incompl...
ABSTRACT: The shear response of polymer brushes is explored as a function of grafting surface curvat...
PACS. 68.47.Pe Langmuir-Blodgett films on solids, polymers on surfaces, biological molecules on surf...
We consider solid surfaces, partly covered with flexible, neutral, linear polymers (by adsorption or...
ABSTRACT: A surface forces apparatus modified to apply small-amplitude oscillatory displacements in ...
Abstract Background Soft, biological, and bio-inspired materials are...
A simplified model describing the sliding friction of hydrogel on solid surface by dynamic adsorptio...
Among soft active materials, i.e. systems that respond to a non-mechanical stimulus (electric field,...
A brush-like structure emerges from the stretching of long polymer chains, densely grafted on to the...
The aim of this paper is to determine how microgels adsorb at a model oil–water interface and how t...
We discuss the adsorption of polymer gels on flat surfaces. Even in cases of complete wetting, where...
We discuss the adsorption of polymer gels on flat surfaces. Even in cases of complete wetting where ...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
Polymers adsorbing from a dilute solution onto the solvent-vapor interface generate a nonzero surfac...
The adsorption of a single polymer to a flat surface in shear is investigated using Brownian hydrody...
Interaction between polymers and soft-matter surfaces in the biological cell is a common yet incompl...
ABSTRACT: The shear response of polymer brushes is explored as a function of grafting surface curvat...
PACS. 68.47.Pe Langmuir-Blodgett films on solids, polymers on surfaces, biological molecules on surf...
We consider solid surfaces, partly covered with flexible, neutral, linear polymers (by adsorption or...
ABSTRACT: A surface forces apparatus modified to apply small-amplitude oscillatory displacements in ...
Abstract Background Soft, biological, and bio-inspired materials are...
A simplified model describing the sliding friction of hydrogel on solid surface by dynamic adsorptio...
Among soft active materials, i.e. systems that respond to a non-mechanical stimulus (electric field,...
A brush-like structure emerges from the stretching of long polymer chains, densely grafted on to the...
The aim of this paper is to determine how microgels adsorb at a model oil–water interface and how t...