Title :
Test Structure for Characterizing Low Voltage Coplanar EWOD System
Author :
Li, Yifan ; Mita, Yoshio ; Haworth, Les I. ; Parkes, William ; Kubota, Masanori ; Walton, Anthony J.
Author_Institution :
Scottish Microelectron. Centre, Univ. of Edinburgh, Edinburgh
Abstract :
This paper presents test structures designed for studying the relationship between the operating voltage and different electrode configurations and areas for coplanar electrowetting on dielectrics (EWOD) devices. New test structures have been designed and fabricated using anodic Ta2O5 dielectric and thin aFP (amorphous Fluoropolymer CYTOP from Asahi Glass Co., Ltd.). These test structures have been used to characterize the contact angle change, which is between 114deg and 81deg with an applied voltage of less than 20 V. This demonstrates that by modifying the coplanar architecture, the operating voltage can be reduced by a factor of two, compared to previously reported coplanar EWOD structures. Droplet manipulation on a coplanar EWOD system with this new design has been successfully demonstrated, with a driving voltage of 15 V.
Keywords :
amorphous state; contact angle; polymers; semiconductor device testing; tantalum compounds; wetting; Ta2O5; amorphous fluoropolymer CYTOP; anodic dielectric; contact angle; coplanar EWOD system; electrowetting on dielectrics devices; test structure; voltage 15 V; Acoustic testing; Amorphous materials; Dielectric devices; Electrodes; Lab-on-a-chip; Low voltage; Microfluidics; Page description languages; Surface acoustic waves; System testing; Coplanar EWOD; Ta205; electrowetting-on-dielectric (EWOD); lab-on-a-chip (LOC); low voltage; microfluidics; test structure;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2008.2010737
