Auto-phoretic nanorods driven up the wall by gravity
ORAL
Abstract
Gravitaxis is the directed upward motion of micro-organisms against gravity, and is observed for a few ciliated organisms like Chlamydomonas, Euglenas or Paramecium. Lacking a dedicated sensor, their gravitactic response relies on bottom-heaviness or shape anisotropy to induce a bias in their swimming direction.
Here we study the gravitaxis of heavy self-electrophoretic Janus nanorods that move upwards on a steeply inclined substrate. Comparisons in experiments and simulations between homogeneous and bottom-heavy nanorods reveals two mechanisms contributing to the gravitactic response of the latter: a buoyancy torque and hydrodynamic interactions with the wall. We show that lubrication forces induce an effective fore-aft asymmetry on nanorods that reinforces the orientation bias to move up the steep wall against gravity.
Here we study the gravitaxis of heavy self-electrophoretic Janus nanorods that move upwards on a steeply inclined substrate. Comparisons in experiments and simulations between homogeneous and bottom-heavy nanorods reveals two mechanisms contributing to the gravitactic response of the latter: a buoyancy torque and hydrodynamic interactions with the wall. We show that lubrication forces induce an effective fore-aft asymmetry on nanorods that reinforces the orientation bias to move up the steep wall against gravity.
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Presenters
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Quentin Brosseau
University of Pennsylvania
Authors
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Quentin Brosseau
University of Pennsylvania
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Florencio Balboa Usabiaga
Simons Fundation
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Enkeleida Lushi
Applied Mathematics, New Jersey Institute of Technology
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Yang Wu
Department of Chemistry, New York University
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Leif Ristroph
CIMS, New York University
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Michael Ward
Department of Chemistry, New York University
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Michael John Shelley
Flatiron Institute, New York University, Courant Institute, New York University, CIMS, New York University
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Jun Zhang
CIMS, New York University