Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.3/237015

Title

Compound sessile drops

Author(s)

Neeson, Michael J.;  Tabor, Rico F.;  Grieser, Franz;  Dagastine, Raymond R.;  Chan, Derek Y. C.

Abstract

Compound drops arise from the contact of three immiscible fluids and can assume various geometric forms based on the interfacial chemistry of the phases involved. Here we present a study of a new class of compound drops that is sessile on a solid surface. The possible geometries are demonstrated experimentally with appropriate fluid combinations and accounted for with a quantitative theoretical description. Although such systems are broadly controlled by relative interfacial energies, subtleties such as the van der Waals force and effects of micro-gravity, despite drop sizes being well below the capillary length, come into play in determining the equilibrium state that is achieved. The drying of a compound sessile drop was measured experimentally, and the process revealed a novel transition between different characteristic configurations of compound sessile drops. Such drops may prove to be useful as the first step towards development of functional surfaces in applications such as soft optics, photonics and surface encapsulation.

Publication type

Journal article

Research centre

Swinburne University of Technology. Faculty of Life and Social Sciences

Source

Soft Matter, Vol. 8, no. 43 (Nov 2012), pp. 11042-11050

Publication year

2012

FOR Code(s)

02 Physical Sciences;  03 Chemical Sciences;  09 Engineering

Keyword(s)

Compound drops;  Sessile drops

Publisher

RSC Publishing

ISSN

1744-683X

Publisher URL

http://dx.doi.org/10.1039/c2sm26637g

Copyright

Copyright © The Royal Society of Chemistry 2012.

Additional information

The authors acknowledge support from the Australian Research Council through a Discovery Project Grant, and an Australian Postgraduate Research Award.

Peer reviewed