Rheology of a 2D granular film.

We study experimentally the rheology of a macroscopic particle-laden soap film, designated as a "", in the simple shear configuration. Macroscopic particles are dispersed in a soap film, while being large enough that they bridge both fluid interfaces. We simultaneously perform macroscopic rheological measurements with a classical rheometer and investigate interactions at the particle scale with a camera underneath the film.

Role of particle aggregation in the structure of dried colloidal silica layers.

The process of colloidal drying gives way to particle self-assembly in numerous fields including photonics or biotechnology. Yet, the mechanisms and conditions driving the final particle arrangement in dry colloidal layers remain elusive. Here, we examine how the drying rate selects the nanostructure of thick dried layers in four different suspensions of silica nanospheres.

Highly porous layers of silica nanospheres sintered by drying: scaling up of the elastic properties of the beads to the macroscopic mechanical properties.

Layers obtained by drying a colloidal dispersion of silica spheres are found to be a good benchmark to test the elastic behaviour of porous media, in the challenging case of high porosities and nano-sized microstructures. Classically used for these systems, Kendall's approach explicitly considers the effect of surface adhesive forces onto the contact area between the particles. This approach provides the Young's modulus using a single adjustable parameter (the adhesion energy) but provides no further information on the tensorial nature and possible anisotropy of elasticity.

Particle pressure in a sheared suspension: a bridge from osmosis to granular dilatancy.

The normal stress exerted by particles in a sheared suspension is measured by analogy with a method used to measure osmotic pressure in solutions. Particles in a liquid are confined by a fine screen to a gap between two vertical concentric cylinders, the inner of which rotates. Pressure in the liquid is sensed either by a manometer or by a pressure transducer across the screen.

Miniaturization: Chip-based liquid chromatography and proteomics.

Proteomic research is linked with significant technological challenges such as the high dynamic range and low abundance of biologically interesting proteins. Moreover, there is an increasing need for high-throughput and robustness of routinely performed analyses. Solving these difficulties requires refinements in the capability to fractionate and prepare biological samples as well as improvements in speed, automation, separation power and overall analytical sensitivity.

Gravity waves at the interface between miscible fluids and at the top of a settling suspension.

Gravity waves were generated at the interface between miscible fluids, or at the top of a settling suspension or a fluidized bed. For these three systems the dispersion relation was measured and compared to the theory and calculated between two buoyant viscous fluids without surface tension. The experimental findings are found to be in good agreement with theory when effective viscosity and volume-averaged density values are used.