Add to ORKGThe dispersion of microscopic particles in shear flows is influenced both by advection and thermal motion. At the nanoscale, the interactions between such particles and their confining boundaries, along with their size, cannot be neglected. Here, using evanescent-wave microscopy with sub-micrometric observation zones, we study the transport of charged nanoparticles in linear shear flows, near a charged, planar wall on one side, and an open, particle-consuming boundary on the other side where the particle leaves the observation zone. By varying the concentration of electrolytes, we show how electrostatic interactions between particles and surface affect dispersion. In addition, an absorption-like condition at the open boundary induces an exp...
In this work, we theoretically investigate the implications of streaming potential on the transport ...
This thesis explores several phenomena that arise in nanoscale fluid transport due to inter-particle...
Using scanning transmission electron microscopy we image ∼4 nm platinum nanoparticles deposited on a...
The dispersion of microscopic particles in shear flows is influenced both by advection and thermal m...
International audienceAdvection-diffusion coupling can enhance particle and solute dispersion by ord...
Understanding the transport of finite-sized particles comparable to pore or throat diameter through ...
An extension of the near wall hindered diffusion theory of Brenner [1] is considered for spherical n...
Nanoparticles transported through highly confined porous media exhibit faster breakthrough than smal...
The Brownian motion of nanoparticles near liquid–solid interfaces is at the heart of evolving techno...
We investigate the effect that fluid density has on the mobility of a spherical nanoparticle moving ...
Nanoparticle assisted drug delivery holds considerable promise as a means of next generation of medi...
Cette thèse explore plusieurs phénomènes de transport de fluides aux nanoéchelles qui résultent de c...
Various nanoparticles have been investigated as drug carriers for delivery to diseased cells in the ...
Improving our understanding of nanoparticle dynamics in complex fluids allows for advancements in Po...
Nanofluidics is an emerging field with many science and engineering applications. The physics of mat...
In this work, we theoretically investigate the implications of streaming potential on the transport ...
This thesis explores several phenomena that arise in nanoscale fluid transport due to inter-particle...
Using scanning transmission electron microscopy we image ∼4 nm platinum nanoparticles deposited on a...
The dispersion of microscopic particles in shear flows is influenced both by advection and thermal m...
International audienceAdvection-diffusion coupling can enhance particle and solute dispersion by ord...
Understanding the transport of finite-sized particles comparable to pore or throat diameter through ...
An extension of the near wall hindered diffusion theory of Brenner [1] is considered for spherical n...
Nanoparticles transported through highly confined porous media exhibit faster breakthrough than smal...
The Brownian motion of nanoparticles near liquid–solid interfaces is at the heart of evolving techno...
We investigate the effect that fluid density has on the mobility of a spherical nanoparticle moving ...
Nanoparticle assisted drug delivery holds considerable promise as a means of next generation of medi...
Cette thèse explore plusieurs phénomènes de transport de fluides aux nanoéchelles qui résultent de c...
Various nanoparticles have been investigated as drug carriers for delivery to diseased cells in the ...
Improving our understanding of nanoparticle dynamics in complex fluids allows for advancements in Po...
Nanofluidics is an emerging field with many science and engineering applications. The physics of mat...
In this work, we theoretically investigate the implications of streaming potential on the transport ...
This thesis explores several phenomena that arise in nanoscale fluid transport due to inter-particle...
Using scanning transmission electron microscopy we image ∼4 nm platinum nanoparticles deposited on a...