(a,b) Comparison between the experimental data (open symbols), frequency ω = 37.7rads −1 and the numerical simulations (filled symbols) driving frequencies: (a) ω = 37.7rads −1 and (b) ω = 50.3rads −1 . In both images the black segment denotes the slope α = 1.8 of the power law P(t p ).

Source publication

Dynamics and Clogging of colloidal monolayers magnetically driven through an heterogeneous landscape

Preprint

Full-text available

Jul 2020

We combine experiments and numerical simulations to investigate the emergence of clogging in a system of interacting paramagnetic colloidal particles driven against a disordered landscape of larger obstacles. We consider a single aperture in a landscape of immobile silica particles which are irreversibly attached to the substrate. We use an externa...

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A cosolvent surfactant mechanism affects polymer collapse in miscible good solvents

Article

Full-text available

Nov 2020

The coil–globule transition of aqueous polymers is of profound significance in understanding the structure and function of responsive soft matter. In particular, the remarkable effect of amphiphilic cosolvents (e.g., alcohols) that leads to both swelling and collapse of stimuli-responsive polymers has been hotly debated in the literature, often wit...

(a,b) Comparison between the experimental data (open symbols), frequency ω = 37.7rads −1 and the numerical simulations (filled symbols) driving frequencies: (a) ω = 37.7rads −1 and (b) ω = 50.3rads −1 . In both images the black segment denotes the slope α = 1.8 of the power law P(t p ).

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