Metallic microswimmers driven up the wall by gravity

POSTER

Abstract

As a natural and functional behavior, various microorganisms exhibit gravitaxis by orienting and swimming upwards against gravity. We study the swimming of autophoretic nanomotors, which are bimetallic and rod-shaped particles, and find that when moving near inclined walls, these tail-heavy rods preferentially orient upwards and swim up along the wall. Through experiment and theory, we identify two mechanisms that contribute to their gravitactic behavior. First, a buoyancy or gravitational torque acts on these rods to align them upwards. Further, hydrodynamic interactions of the rod with the inclined wall induce a fore-aft drag asymmetry on the rods that reinforces their orientation bias and promotes their upward motion.

*This work was supported primarily by the MRSEC Program of the National Science Foundation under Award DMR-1420073, and also by NSF Grants DMS-RTG-1646339, DMS-1463962 and DMS-1620331.

Authors

  • Florencio Balboa Usabiaga

    • Basque Center for Applied Mathematics

  • Quentin Brosseau

    • Department of Mechanical Engineering & Applied Mechanics, University of Pennsylvania

  • Enkeleida Lushi

    • Department of Mathematics, New Jersey Institute of Technology

  • Yang Wu

    • Department of Chemistry, New York University

  • Leif Ristroph

    • Courant Institute, New York University

  • Michael D. Ward

    • Department of Chemistry, New York University

  • Michael J. Shelley

    • Flatiron Institute, Simons Foundation

  • Jun Zhang

    • Courant Institute, New York University