Eduard Benet scite author profile

The permeation and trapping of soft colloidal particles in the confined space of porous media are of critical importance in cell migration studies, design of drug delivery vehicles, and colloid separation devices. Our current understanding of these processes is however limited by the lack of quantitative models that can relate how the elasticity, size, and adhesion properties of the vesicle-pore complex affect colloid transport. We address this shortcoming by introducing a semianalytical model that predicts the equilibrium shapes of a soft vesicle driven by pressure in a narrow pore. Using this approach, the problem is recast in terms of pressure and energy diagrams that characterize the vesicle stability and permeation pressures in different conditions. We particularly show that the critical permeation pressure for a vesicle arises from a compromise between the critical entry pressure and exit pressure, both of which are sensitive to geometrical features, mechanics, and adhesion. We further find that these results can be leveraged to rationally design microfluidic devices and diodes that can help characterize, select, and separate colloids based on physical properties.

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Separating the contributions of zona pellucida and cytoplasm in the viscoelastic response of human oocytes

Shen

Benet

Sridhar

et al. 2019

Acta Biomaterialia

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The porous media's effect on the permeation of elastic (soft) particles

Benet

Badran

Pellegrino

et al. 2017

Journal of Membrane Science

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On the blistering of thermo-sensitive hydrogel: the volume phase transition and mechanical instability

et al. 2019

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Eduard Benet

Biological active matter aggregates: Inspiration for smart colloidal materials

Mechanics and stability of vesicles and droplets in confined spaces

Separating the contributions of zona pellucida and cytoplasm in the viscoelastic response of human oocytes

The porous media's effect on the permeation of elastic (soft) particles

On the blistering of thermo-sensitive hydrogel: the volume phase transition and mechanical instability

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