Title :
A Compact Manually Actuated Micromanipulator
Author :
Chan, Bin-Da ; Mateen, Farrukh ; Chang, Chun-Li ; Icoz, Kutay ; Savran, Cagri A.
Author_Institution :
Birck Nanotechnol. Center, Purdue Univ., West Lafayette, IN, USA
Abstract :
This letter reports a compact, versatile, and user-friendly micromanipulator that uses an elastically deformable silicon microtweezer to grab microentities, and a micrometer head for rotational manual actuation. The micro-/macroconnection is achieved via a graphite interface that results in a compact and portable design and placement on most translation stages. The system which can operate in both air and liquid, and transport objects between the two media, has a wide range of applications. We demonstrate but a few of them, including in situ construction of microstructures in 3-D, isolation and placement of individual microparticles on designated spots on sensors, on-demand microcontact printing of microparticles, and manipulation of live stem cell spheres.
Keywords :
bioMEMS; elasticity; grippers; microactuators; micromanipulators; silicon; soft lithography; compact design; compact manually actuated micromanipulator; elastically deformable silicon microtweezer; grab microentity; graphite interface; live stem cell spheres; macroconnection; microconnection; micrometer head; microparticles; microstructures; ondemand microcontact printing; portable design; rotational manual actuation; translation stages; Head; Media; Micromanipulators; Sensors; Silicon; Stem cells; Stress; Microgripper; micromanipulator; microstamping; microtweezer;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2011.2174431
