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Related Experiment Video

Updated: Jan 21, 2026

Confocal Imaging of Confined Quiescent and Flowing Colloid-polymer Mixtures
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Flow fields around pinned self-thermophoretic microswimmers under confinement.

A P Bregulla1, F Cichos1

  • 1Molecular Nanophotonics Group, Peter Debye Institute for Soft Matter Physics, Leipzig University, 04103 Leipzig, Germany.

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|August 3, 2019
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Summary

Researchers studied fluid flow around Janus particles in narrow pores. They found that temperature gradients create thermo-osmotic flows, influencing particle behavior and clustering near surfaces.

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Area of Science:

  • Colloidal science
  • Soft matter physics
  • Fluid dynamics

Background:

  • Phoretic swimmers, like Janus particles, generate flows due to self-thermophoresis.
  • Particle behavior in confined geometries is crucial for understanding microfluidic devices and biological systems.
  • Substrate interactions can significantly alter flow fields around active particles.

Purpose of the Study:

  • To measure and characterize the flow field around a self-thermophoretic Janus particle confined in slit pores of varying widths.
  • To investigate the influence of slit width on the generated flow patterns.
  • To identify the mechanisms responsible for observed flow behaviors, particularly thermo-osmotic effects.

Main Methods:

  • Utilized micrometer-sized Janus particles that exhibit self-thermophoresis.
  • Employed thermophoretically inactive gold nanoparticles as tracers to visualize the flow field.
  • Confined the Janus particle within slit pores of different controlled widths.
  • Analyzed the movement of gold nanoparticles to map the surrounding flow field.

Main Results:

  • Observed significant alterations in the flow field as the slit pore width decreased.
  • Identified distinct features indicative of thermo-osmotic flows generated by temperature gradients along the confining glass surfaces.
  • Demonstrated that these substrate-induced flows are a key factor in the measured flow fields.

Conclusions:

  • The study reveals that thermo-osmotic creep flows at substrate boundaries significantly impact the hydrodynamics around self-thermophoretic Janus particles in confined geometries.
  • These findings suggest that substrate-induced osmotic flows may play a crucial role in phenomena like particle clustering observed around phoretic swimmers.
  • Highlights the importance of considering boundary effects in studies of active matter in confined environments.