Issue 37, 2023

Elastohydrodynamic propulsion of a filament magnetically driven at both ends

Abstract

The elastohydrodynamic interaction between an elastic filament and its surrounding fluid was exploited to develop the first microswimmers. These flexible microswimmers are typically actuated magnetically at one end and their propulsion behavior is relatively well understood. In this work, we move beyond the traditional single-end actuation setup and explore the propulsion characteristics of an elastic filament driven by magnetic torques at both ends. We report the emergence of new modes of propulsion behaviors in different physical regimes, depending on the balance of elastic and viscous forces as well as the arrangement of the magnetic moments at the filament ends. In particular, under the same magnetic actuation, a filament driven at both ends can propel either forward or backward depending on its relative stiffness. Moreover, this new backward propulsion mode can generate a magnitude of propulsion that is unattainable by the traditional single-end actuation setup. We characterize these new propulsion behaviors and provide some physical insights into how they emerge from the complex interplay between viscous and elastic forces and magnetic actuation in various configurations. Taken together, these findings could guide the development of soft microrobots with enhanced propulsion performance and maneuverability for future biomedical applications.

Graphical abstract: Elastohydrodynamic propulsion of a filament magnetically driven at both ends

Supplementary files

Article information

Article type
Paper
Submitted
07 Apr 2023
Accepted
21 Aug 2023
First published
08 Sep 2023

Soft Matter, 2023,19, 7100-7108

Author version available

Elastohydrodynamic propulsion of a filament magnetically driven at both ends

A. Gürbüz, K. Qin, J. J. Abbott and O. S. Pak, Soft Matter, 2023, 19, 7100 DOI: 10.1039/D3SM00464C

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