DocumentCode
2622549
Title
Flagella-like Propulsion for Microrobots Using a Nanocoil and a Rotating Electromagnetic Field
Author
Bell, D.J. ; Leutenegger, S. ; Hammar, K.M. ; Dong, L.X. ; Nelson, B.J.
Author_Institution
Inst. of Robotics & Intelligent Syst., ETH Zurich
fYear
2007
fDate
10-14 April 2007
Firstpage
1128
Lastpage
1133
Abstract
A propulsion system similar in size and motion to the helical bacterial flagella motor is presented. The system consists of a magnetic nanocoil as a propeller (27 nm thick ribbon, 3 mun in diameter, 30-40 mum long) driven by an arrangement of macro coils. The macro coils generate a rotating field that induces rotational motion in the nanocoil. Viscous forces during rotation result in a net axial propulsion force on the nanocoil. Modeling of fluid mechanics and magnetics was used to estimate the requirements for such a system. The fabrication of the magnetic nanocoils and the system setup are explained. Experimental results from electromagnetic actuation of nanocoils as well as from their propulsion in both paraffin oil and water are presented. This is the first time a propulsion system of this size and motion-type has been fabricated and experimentally verified.
Keywords
electromagnetic fields; microrobots; mobile robots; nanotechnology; 27 nm; 3 micron; 30 to 40 micron; electromagnetic field; flagella-like propulsion; fluid mechanics; helical bacterial flagella motor; magnetic nanocoil; microrobots; Coils; Electromagnetic fields; Electromagnetic forces; Electromagnetic launching; Fabrication; Magnetic liquids; Microorganisms; Petroleum; Propellers; Propulsion;
fLanguage
English
Publisher
ieee
Conference_Titel
Robotics and Automation, 2007 IEEE International Conference on
Conference_Location
Roma
ISSN
1050-4729
Print_ISBN
1-4244-0601-3
Electronic_ISBN
1050-4729
Type
conf
DOI
10.1109/ROBOT.2007.363136
Filename
4209240
Link To Document