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Article Dans Une Revue Physical Review Letters Année : 2023

Nanoparticle Taylor dispersion near charged surfaces with an open boundary

Résumé

The dispersive spreading of microscopic particles in shear flows is influenced both by advection and thermal motion. At the nanoscale, interactions between such particles and their confining boundaries become unavoidable. We address the roles of electrostatic repulsion and absorption on the spatial distribution and dispersion of charged nanoparticles in near-surface shear flows, observed under evanescent illumination. The electrostatic repulsion between particles and the lower charged surface is tuned by varying electrolyte concentrations. Particles leaving the field of vision can be neglected from further analysis, such that the experimental ensemble is equivalent to that of Taylor dispersion with absorption. These two ingredients modify the particle distribution, deviating strongly from the Gibbs-Boltzmann one at the nanoscale studied here. The overall effect is to restrain the accessible space available to particles, leading to a striking, ten-fold reduction in the spreading dynamics as compared to the non-interacting case.
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hal-03694008 , version 1 (14-06-2022)
hal-03694008 , version 2 (02-01-2023)

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Alexandre Vilquin, Vincent Bertin, Elie Raphaël, David S Dean, Thomas Salez, et al.. Nanoparticle Taylor dispersion near charged surfaces with an open boundary. Physical Review Letters, 2023, 130 (3), pp.038201. ⟨10.1103/PhysRevLett.130.038201⟩. ⟨hal-03694008v2⟩
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