Artificial bacterial flagella: Fabrication and magnetic control

Li Zhang; Jake J. Abbott; Lixin Dong; Bradley E. Kratochvil; Dominik Bell; Bradley J. Nelson

doi:10.1063/1.3079655

Artificial bacterial flagella: Fabrication and magnetic control

Li Zhang, Jake J. Abbott, Lixin Dong, Bradley E. Kratochvil, Dominik Bell, Bradley J. Nelson^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

1063 Citations (Scopus)

Abstract

Inspired by the natural design of bacterial flagella, we report artificial bacterial flagella (ABF) that have a comparable shape and size to their organic counterparts and can swim in a controllable fashion using weak applied magnetic fields. The helical swimmer consists of a helical tail resembling the dimensions of a natural flagellum and a thin soft-magnetic "head" on one end. The swimming locomotion of ABF is precisely controlled by three orthogonal electromagnetic coil pairs. Microsphere manipulation is performed, and the thrust force generated by an ABF is analyzed. ABF swimmers represent the first demonstration of microscopic artificial swimmers that use helical propulsion. Self-propelled devices such as these are of interest in fundamental research and for biomedical applications. © 2009 American Institute of Physics.

Original language	English
Article number	064107
Journal	Applied Physics Letters
Volume	94
Issue number	6
Online published	13 Feb 2009
DOIs	https://doi.org/10.1063/1.3079655
Publication status	Published - Feb 2009
Externally published	Yes

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title = "Artificial bacterial flagella: Fabrication and magnetic control",

abstract = "Inspired by the natural design of bacterial flagella, we report artificial bacterial flagella (ABF) that have a comparable shape and size to their organic counterparts and can swim in a controllable fashion using weak applied magnetic fields. The helical swimmer consists of a helical tail resembling the dimensions of a natural flagellum and a thin soft-magnetic {"}head{"} on one end. The swimming locomotion of ABF is precisely controlled by three orthogonal electromagnetic coil pairs. Microsphere manipulation is performed, and the thrust force generated by an ABF is analyzed. ABF swimmers represent the first demonstration of microscopic artificial swimmers that use helical propulsion. Self-propelled devices such as these are of interest in fundamental research and for biomedical applications. {\textcopyright} 2009 American Institute of Physics.",

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AU - Zhang, Li

AU - Abbott, Jake J.

AU - Dong, Lixin

AU - Kratochvil, Bradley E.

AU - Bell, Dominik

AU - Nelson, Bradley J.

PY - 2009/2

Y1 - 2009/2

N2 - Inspired by the natural design of bacterial flagella, we report artificial bacterial flagella (ABF) that have a comparable shape and size to their organic counterparts and can swim in a controllable fashion using weak applied magnetic fields. The helical swimmer consists of a helical tail resembling the dimensions of a natural flagellum and a thin soft-magnetic "head" on one end. The swimming locomotion of ABF is precisely controlled by three orthogonal electromagnetic coil pairs. Microsphere manipulation is performed, and the thrust force generated by an ABF is analyzed. ABF swimmers represent the first demonstration of microscopic artificial swimmers that use helical propulsion. Self-propelled devices such as these are of interest in fundamental research and for biomedical applications. © 2009 American Institute of Physics.

AB - Inspired by the natural design of bacterial flagella, we report artificial bacterial flagella (ABF) that have a comparable shape and size to their organic counterparts and can swim in a controllable fashion using weak applied magnetic fields. The helical swimmer consists of a helical tail resembling the dimensions of a natural flagellum and a thin soft-magnetic "head" on one end. The swimming locomotion of ABF is precisely controlled by three orthogonal electromagnetic coil pairs. Microsphere manipulation is performed, and the thrust force generated by an ABF is analyzed. ABF swimmers represent the first demonstration of microscopic artificial swimmers that use helical propulsion. Self-propelled devices such as these are of interest in fundamental research and for biomedical applications. © 2009 American Institute of Physics.

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JO - Applied Physics Letters

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ER -

Artificial bacterial flagella: Fabrication and magnetic control

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