2016
DOI: 10.1103/physrevlett.116.138302
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Hydrodynamic Boundary Effects on Thermophoresis of Confined Colloids

Abstract: We study hydrodynamic slowing-down of a particle moving in a temperature gradient perpendicular to a wall. At distances much smaller than the particle radius, h a, lubrication approximation leads to the reduced velocity u/u0 = 3 h a ln a h , with respect to the bulk value u0. With Brenner's result for confined diffusion, we find that the trapping efficiency, or effective Soret coefficient, increases logarithmically as the particle gets very close to the wall. This provides a quantitative explanation for the re… Show more

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Cited by 34 publications
(31 citation statements)
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“…(107). We also note the our expression becomes same as the analytical result of the singular term in [51] for the parallel interaction between a squirmer and a wall, that is F z in our notation. We did not compute the O(1) terms and instead use the values of an isolated squirmer as was done in [48] for a Stokesian Dynamics simulation.…”
Section: Comparison To Other Workmentioning
confidence: 80%
“…(107). We also note the our expression becomes same as the analytical result of the singular term in [51] for the parallel interaction between a squirmer and a wall, that is F z in our notation. We did not compute the O(1) terms and instead use the values of an isolated squirmer as was done in [48] for a Stokesian Dynamics simulation.…”
Section: Comparison To Other Workmentioning
confidence: 80%
“…The micelle depletion generates an osmotic pressure exerted on the particle to improve its trapping stability. In addition, the depletion attraction significantly reduces the particle-substrate distance, which increases logarithmically the Soret coefficient of the particle 30 . In OTENT, the opto-thermoelectric field is proportional to the Soret coefficient of the particle, indicating an increased trapping force due to the reduction of the particle-substrate gap.…”
Section: Single-nanoparticle Trapping and Manipulationmentioning
confidence: 99%
“…The internal electric field is the field experienced by one charged particle in the bulk of the solution. It is of fundamental importance for a large number of diffusion phenomena of charged species in electrolytes [ 17 , 18 , 19 , 20 , 30 , 31 , 32 , 33 ]. However, is very difficult to measure experimentally, given the fact that the introduction of metallic electrodes inevitably induces surface phenomena (e.g., electronic double layer formation).…”
Section: Thermogalvanic Cellmentioning
confidence: 99%