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Colloidal motion under the action of a thermophoretic force.

Jerome BurelbachMykolas ZupkauskasRobin LambollYang LanErika Eiser
Published in: The Journal of chemical physics (2018)
We present thermophoretic measurements in aqueous suspensions of three different polystyrene (PS) particles of varying negative charge, size, and surface coating. Our measurement technique is based on the observation of the colloidal steady-state distribution using conventional bright-field microscopy, which avoids undesirable effects such as laser-induced convection or local heating. We find that the colloids with the weakest zeta potential exhibit the strongest thermophoretic effect, suggesting that the Soret coefficient has a more intricate dependence on surface functionality than predicted by existing theoretical approaches. We also study the relaxation of the colloids to steady-state and propose a model to quantify the relaxation speed, based on the time evolution of the colloidal center of mass. Our observations are well described by this model and show that the relaxation speed tends to increase with the magnitude of the thermophoretic force.
Keyphrases
  • single molecule
  • high speed
  • magnetic resonance imaging
  • risk assessment
  • optical coherence tomography
  • mass spectrometry
  • diffusion weighted imaging