Litcius/Paper detail

Programmable droplet actuating platform using liquid dielectrophoresis

Iman Frozanpoor, Michael Cooke, Zoltàn Ràcz, Ian Bossons, Vibin Ambukan, David Wood, Andrew J. Gallant, Claudio Balocco

2021Journal of Micromechanics and Microengineering18 citationsDOIOpen Access PDF

Abstract

Abstract Droplet motion has been a long-standing interest in microfluidics as it is often limited by the high operating voltages, which hampers the development of consumer applications. Forces generated by liquid dielectrophoresis (L-DEP) can enhance surface wetting, without requiring chemical modification or surface texturing. This work presents a droplet actuating platform to control the wetting behaviour of water droplets using L-DEP. The exploitation of high electric fields at the droplet solid–liquid interface reduced the operating voltages. The operating voltage can be further reduced, to as low as 30 V, by introducing a lubricant layer to minimise the droplet contact angle hysteresis, thus requiring a smaller L-DEP bulk force. The outcomes of this study will provide a new pathway for developing energy-efficient and reliable droplet actuating platforms to clean a variety of surfaces. A particular interest will be the application of this system in the automobile sector, for instance, to clean headlamps, sensors, cameras, door mirrors, front side glass, and rear screen.

Topics & Concepts

DielectrophoresisMicrofluidicsWettingMaterials scienceVoltageContact angleNanotechnologyElectric fieldElectrowettingHysteresisOptoelectronicsMechanical engineeringElectrical engineeringComposite materialEngineeringPhysicsQuantum mechanicsElectrowetting and Microfluidic TechnologiesSurface Modification and SuperhydrophobicityModular Robots and Swarm Intelligence