Micro-Structured Surface Ratchets for Droplet Transport

Author

Shastry, Ashutosh ; Taylor, Dane ; Böhringer, Karl F.

Author_Institution

Univ. of Washington, Seattle

fYear

2007

fDate

10-14 June 2007

Firstpage

1353

Lastpage

1356

Abstract

We report a new paradigm for droplet transport that exploits asymmetric hysteresis - the difference in the sensitivity to texture of the advancing and receding contact angles on super-hydrophobic surfaces. Texture is engineered to create contiguous "surface ratchets" that pin one edge more than the other, thereby guiding the droplet in one direction when vibrated. This paper presents the principle, fabricated structure, experimental results that validate the hypothesis - showing droplets moving with velocities greater than 12 mm/s - and preliminary understanding of the physics of ratcheting.

Keywords

contact angle; drops; hysteresis; microfluidics; advancing contact angles; asymmetric hysteresis; contiguous surface ratchets; droplet transport; microstructured surface ratchets; receding contact angles; super-hydrophobic surfaces; Chemical technology; Chemistry; Contacts; Energy resolution; Hysteresis; Microfluidics; Physics; Space technology; Surface texture; Surface topography; droplet microfluidics; ratchets; super-hydrophobic surfaces;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid-State Sensors, Actuators and Microsystems Conference, 2007. TRANSDUCERS 2007. International

Conference_Location

Lyon

Print_ISBN

1-4244-0842-3

Electronic_ISBN

1-4244-0842-3

Type

conf

DOI

10.1109/SENSOR.2007.4300393

Filename

4300393