Electromagnetically actuated micromanipulator using an acoustically oscillating bubble
Autor: | Jinseung Yang, Jun O Kwon, Sang Kug Chung, S J Lee, Kyehan Rhee |
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Rok vydání: | 2011 |
Předmět: |
Materials science
business.industry Mechanical Engineering Bubble Acoustics Flow (psychology) Electrical engineering Propulsion Electronic Optical and Magnetic Materials law.invention Computer Science::Robotics Mechanics of Materials law Drag Electrical and Electronic Engineering Current (fluid) Micromanipulator business Intensity (heat transfer) Excitation |
Zdroj: | Journal of Micromechanics and Microengineering. 21:115023 |
ISSN: | 1361-6439 0960-1317 |
DOI: | 10.1088/0960-1317/21/11/115023 |
Popis: | A novel non-invasive micromanipulation technique has been developed where a microrobot swimming in an aqueous medium manipulates micro-objects, through electromagnetic actuation using an acoustically oscillating bubble attached to the microrobot as a grasping tool. This micromanipulation concept was experimentally verified; an investigation of electromagnetic actuation and acoustic excitation was also performed. Two-dimensional propulsion of a magnetic piece was demonstrated through electromagnetic actuation, using three pairs of electric coils surrounding the water chamber, and confirming that the propulsion speed of the magnetic piece was linearly proportional to the applied current intensity. Micro-object manipulation was separately demonstrated using an air bubble with glass beads (80 µm diameter) and a steel ball (800 µm diameter) in an aqueous medium. Upon acoustic excitation of the bubble by a piezo-actuator around its resonant frequency, the generated radiation force attracted and captured the neighboring glass beads and steel ball. The grasping force was indirectly measured by exposing the glass beads captured by the oscillating bubble to a stream generated by an auto-syringe pump in a mini-channel. By measuring the maximum speed of the streaming flow when the glass beads detached from the oscillating bubble and flowed downstream, the grasping force was calculated as 50 nN, based on Stokes' drag approximation. Finally, a fish egg was successfully manipulated with the integration of electromagnetic actuation and acoustic excitation, using a mini-robot consisting of a millimeter-sized magnetic piece with a bubble attached to its bottom. This novel micromanipulation may be an efficient tool for both micro device assembly and single-cell manipulation. |
Databáze: | OpenAIRE |
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