Title :
Active control of micro-droplets by hybrid magnetically driven microtool
Author :
Yamanishi, Yoko ; Kihara, Yuki ; Sakuma, Shinya ; Arai, Fumihito
Author_Institution :
PRESTO, Tohoku Univ., Sendai, Japan
Abstract :
We propose a hybrid polymer-metal magnetically driven microtool (MMT) featuring elasticity and rigidity. An electroplated magnetic metal axle is installed directly at the center of the MMT during molding. The result is a hybrid MMT whose fixed axes move elastically in a specific direction and whose center axle is rigid, preventing bending by unwanted external force. The axle´ s higher magnetism contributes to powerful actuation. The hybrid MMT we designed provides on-demand droplet dispensation on chips. Its parallel plate is constrained translationally. Hybrid MMT displacement is 300 ¿m - 6 times greater than that of the conventional MMT. On-demand droplet generation produces a 177.7±2.3 ¿m droplet.
Keywords :
axles; drops; elasticity; magnetic materials; microfluidics; shear modulus; active control; bending; droplet dispensation; elasticity; electroplated magnetic metal axle; hybrid magnetically driven microtool; hybrid polymer-metal magnetically driven microtool; microdroplets; molding; on-demand droplet generation; rigidity; Axles; Biomembranes; Elasticity; Fluid flow; Magnetoelasticity; Microchannel; Microfluidics; Polymers; Shape control; Size control; droplet dispensing; magnetically driven microtool;
Conference_Titel :
System Integration, 2009. SII 2009. IEEE/SICE International Symposium on
Conference_Location :
Tokyo
Print_ISBN :
978-1-4244-5908-7
DOI :
10.1109/SI.2009.5384564
