Fabrication and manipulation of ciliary microrobots with non-reciprocal magnetic actuation
Abstract
Magnetically actuated ciliary microrobots were designed, fabricated, and manipulated to mimic cilia-based microorganisms such as paramecia. Full three-dimensional (3D) microrobot structures were fabricated using 3D laser lithography to form a polymer base structure. A nickel/titanium bilayer was sputtered onto the cilia part of the microrobot to ensure magnetic actuation and biocompatibility. The microrobots were manipulated by an electromagnetic coil system, which generated a stepping magnetic field to actuate the cilia with non-reciprocal motion. The cilia beating motion produced a net propulsive force, resulting in movement of the microrobot. The magnetic forces on individual cilia were calculated with various input parameters including magnetic field strength, cilium length, applied field angle, actual cilium angle, etc., and the translational velocity was measured experimentally. The position and orientation of the ciliary microrobots were precisely controlled, and targeted particle transportation was demonstrated experimentally. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000119305Publikationsstatus
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Zeitschrift / Serie
Scientific ReportsBand
Seiten / Artikelnummer
Verlag
Nature Publishing GroupThema
Electrical and electronic engineering; Mechanical engineering