Eric Cereceda-López, Marco De Corato, Ignacio Pagonabarraga, Fanlong Meng, Pietro Tierno, Antonio Ortiz-Ambriz
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Curvature induces and enhances transport of spinning colloids through narrow channels
The effect of curvature and how it induces and enhances the transport of
colloidal particles driven through narrow channels represent an unexplored
research avenue. Here we combine experiments and simulations to investigate the
dynamics of magnetically driven colloidal particles confined through a narrow,
circular channel. We use an external precessing magnetic field to induce a net
torque and spin the particles at a defined angular velocity. Due to the
spinning, the particle propulsion emerges from the different hydrodynamic
coupling with the inner and outer walls and strongly depends on the curvature.
The experimental findings are combined with finite element numerical
simulations that predict a positive rotation translation coupling in the
mobility matrix. Further, we explore the collective transport of many particles
across the curved geometry, making an experimental realization of a driven
single file system. With our finding, we elucidate the effect of curvature on
the transport of microscopic particles which could be important to understand
the complex, yet rich, dynamics of particle systems driven through curved
microfluidic channels.
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