Title :
Optimization of electrowetting electrodes: Analysis of the leakage current characteristics of various dielectric layers
Author :
Cahill, B.P. ; Giannitsis, A.T. ; Land, R. ; Gastrock, G. ; Pliquett, U. ; Nacke, T. ; Min, Moonsik ; Beckmann, D.
Author_Institution :
Inst. of Bioprocessing & Anal. Meas. Tech., Heilbad Heiligenstadt
Abstract :
Electrowetting is a phenomenon that has attracted much attention in recent years for application in lab-on-a-chip devices. The electrical control of contact angle can be used to transport liquid droplets by capillary forces. We present experimental work that aims to clarify the role played by the dielectric breakdown of surface coatings. The relation between electrowetting and dielectric breakdown was tested by means of measuring the contact angle of a droplet of water placed between two electrodes on an insulated surface. The current and resistance between these electrodes was measured as a function of applied voltage for the following dielectric coatings: silicon dioxide, silicon nitride and parylene.
Keywords :
dielectric materials; drops; electric breakdown; lab-on-a-chip; leakage currents; microelectrodes; polymers; silicon compounds; surface tension; water; wetting; SiN; SiO2; dielectric breakdown; dielectric layers; electrowetting electrodes; leakage current characteristic; parylene; surface coatings; water droplet contact angle; Coatings; Contacts; Dielectric breakdown; Dielectric measurements; Electrical resistance measurement; Electrodes; Force control; Lab-on-a-chip; Leakage current; Surface resistance;
Conference_Titel :
Electronics Conference, 2008. BEC 2008. 11th International Biennial Baltic
Conference_Location :
Tallinn
Print_ISBN :
978-1-4244-2059-9
Electronic_ISBN :
1736-3705
DOI :
10.1109/BEC.2008.4657482
