Microbots Swimming in the Flowing Streams of Microfluidic Channels
- 17 December 2010
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of the American Chemical Society
- Vol. 133 (4), 701-703
- https://doi.org/10.1021/ja109627w
Abstract
We describe the motion of self-propelled catalytic Ti/Fe/Pt rolled-up microtubes (microbots) in the microchannels of a microfluidics system. Their motion is precisely controlled by a small magnetic field, and the transport of multiple spherical microparticles into desired locations is achieved. The microbots are powerful enough to propel themselves against flowing streams. The integration of “smart and powerful” microbots into microchip systems can lead to multiple lab-on-a-chip functions such as separation of cells and biosensing.Keywords
This publication has 22 references indexed in Scilit:
- Electrochemically powered self-propelled electrophoretic nanosubmarinesNanoscale, 2010
- Nanolocomotion—Catalytic Nanomotors and NanorotorsSmall, 2010
- Nanorobots: The Ultimate Wireless Self‐Propelled Sensing and Actuating DevicesChemistry – An Asian Journal, 2009
- Powering NanorobotsScientific American, 2009
- Can Man-Made Nanomachines Compete with Nature Biomotors?ACS Nano, 2009
- Motor Proteins at Work for NanotechnologyScience, 2007
- Chemical LocomotionAngewandte Chemie International Edition, 2006
- Molecular Sorting by Electrical Steering of Microtubules in Kinesin-Coated ChannelsScience, 2006
- Molecular Shuttles Operating Undercover: A New Photolithographic Approach for the Fabrication of Structured Surfaces Supporting Directed MotilityNano Letters, 2003
- Analysis of Microtubule Guidance in Open Microfabricated Channels Coated with the Motor Protein KinesinLangmuir, 2002