Title :
Discrete Chemical Release From a Microfluidic Chip
Author :
Hu, Min ; Lindemann, Timo ; Göttsche, Thorsten ; Kohnle, Joerg ; Zengerle, Roland ; Koltay, Peter
Author_Institution :
Freiburg Univ., Freiburg
Abstract :
We demonstrate a discrete chemical release method, capable of delivering picoliter volumes of chemical solutions with 100 mum of spatial resolution and 20 mus of response time. The releasing mechanism is based on the transfer of pulsed liquid plugs through a hydrophobic air chamber. A microfluidic chip consisting of such a releasing array (2 times 10) is designed and fabricated. Numerical simulation and experimental testing are performed to verify the working principle. Advantages of this release-on-demand technology include leakage-free, fast response and versatile control of release profile. This new method could be a key enabling technology for precisely controlled release of biochemicals for modern pharmacological and biological research.
Keywords :
bioMEMS; drug delivery systems; microfluidics; biochemicals release; discrete chemical release; hydrophobic air chamber; microfluidic chip; numerical simulation; precisely controlled release; pulsed liquid; release profile; release-on-demand technology; releasing mechanism; time 20 mus; Biological control systems; Biotechnology; Chemical technology; Drug delivery; Information technology; Medical treatment; Microfluidics; Micromachining; Spatial resolution; Switches; Air gap; discrete chemical stimulation; microfluidic chip; picoliter chemical release; pulsed liquid ejection;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2007.892911
