Title :
Thermocapillary actuation of liquids using patterned microheater arrays
Author :
Valentino, J.P. ; Darhuber, A.A. ; Troian, S.M. ; Wagner, S.
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., NJ, USA
Abstract :
We demonstrate a microfluidic actuation technique capable of directing nanoliter liquid samples on the surface of a glass substrate through the use of both electronically addressable heater arrays and chemical patterning. Pathways for liquid movement are delineated by the arrangement of microheaters, which also provide the thermocapillary actuating force. The drops are confined by selectively depositing a fluorinated monolayer to the surface, which defines the channel edges. Operating voltages in the range of 2-3V were used to move, split, and trap liquids. This fluid transportation technique enables direct access to liquid samples for handling and diagnostic purposes and offers a low power alternative to existing microfluidic systems.
Keywords :
capillarity; drops; liquid films; microactuators; microfluidics; monolayers; nanostructured materials; 2 to 3 V; chemical patterning; directing nanoliter liquid; drops; electronically addressable heater arrays; fluid transportation; fluorinated monolayer; glass substrate; microfluidic actuation; patterned microheater arrays; thermocapillary actuation; trap liquids; Chemical engineering; Chromium; Glass; Gold; Heating; Liquids; Microfluidics; Nanobioscience; Power dissipation; Surface tension;
Conference_Titel :
TRANSDUCERS, Solid-State Sensors, Actuators and Microsystems, 12th International Conference on, 2003
Conference_Location :
Boston, MA, USA
Print_ISBN :
0-7803-7731-1
DOI :
10.1109/SENSOR.2003.1215561
