Title :
Thermocapillary actuation of droplets on chemically patterned surfaces by programmable microheater arrays
Author :
Darhuber, Anton A. ; Valentino, Joseph P. ; Troian, Sandra M. ; Wagner, Sigurd
Author_Institution :
Microfluidic Res. & Eng. Lab., Sch. of Eng. & Appl. Sci., Princeton, NJ, USA
Abstract :
We have designed a microfluidic device for the actuation of liquid droplets or continuous streams on a solid surface by means of integrated microheater arrays. The microheaters provide control of the surface temperature distribution with high spatial resolution. These temperature gradients locally alter the surface tension along droplets and thin films thus propelling the liquid toward the colder regions. In combination with liquophilic and liquophobic chemical surface patterning, this device can be used as a logistic platform for the parallel and automated routing, mixing and reacting of a multitude of liquid samples, including alkanes, poly(ethylene glycol) and water.
Keywords :
capillarity; drops; microactuators; microfluidics; resistance heating; surface tension; temperature control; temperature distribution; thin film resistors; wetting; alkanes; analytical testing; automated dispensing system; chemically patterned surfaces; critical surface tension; high spatial resolution; integrated microheater arrays; liquid droplets; liquid mixing; microfluidic device; parallel automated routing; passivation; poly(ethylene glycol); programmable microheater arrays; surface temperature distribution; thermocapillary actuation; thin-film resistive heaters; wetting liquids; Chemicals; Logistics; Microfluidics; Propulsion; Solids; Spatial resolution; Surface tension; Temperature control; Temperature distribution; Transistors;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2003.820267
