Low friction droplet transportation on a substrate with a selective Leidenfrost effect

Dodd, Linzi E.; Geraldi, Nicasio R.; Xu, Ben B.; McHale, Glen; Wells, Gary G.; Stuart-Cole, Simone; Martin, James; Newton, Michael I.; Wood, David

doi:10.1021/acsami.6b06738

Low friction droplet transportation on a substrate with a selective Leidenfrost effect

Dodd, Linzi E.; Geraldi, Nicasio R.; Xu, Ben B.; McHale, Glen; Wells, Gary G.; Stuart-Cole, Simone; Martin, James; Newton, Michael I.; Wood, David

Authors

Linzi E. Dodd

Nicasio R. Geraldi

Ben B. Xu

Glen McHale

Gary G. Wells

Simone Stuart-Cole

James Martin

Michael I. Newton

David Wood

Abstract

An energy saving Leidenfrost levitation method is introduced to transport micro-droplets with virtually frictionless contact between the liquid and solid substrate. By micro-engineering the heating units, selective areas of the whole substrate can be electro-thermally activated. A droplet can be levitated as a result of the Leidenfrost effect, and further transported when the substrate is tilted slightly. The selective electro-heating produces a uniform temperature distribution on the heating units within 1 s, in response to a triggering voltage. Alongside these experimental observations, finite element simulations are conducted to understand the temperature profile of the selective heated substrate, and also generate phase diagrams to verify the Leidenfrost regime for different substrate materials. Finally, we demonstrate the possibility of controlling low friction high speed droplet transportation (~ 65 mm/s) when the substrate is tilted (~ 7 °) by structurally designing the substrate. This work establishes the basis for an entirely new approach to droplet microfluidics.

Citation

Dodd, L. E., Geraldi, N. R., Xu, B. B., McHale, G., Wells, G. G., Stuart-Cole, S., …Wood, D. (2016). Low friction droplet transportation on a substrate with a selective Leidenfrost effect. ACS Applied Materials and Interfaces, 8(34), 22658-22663. https://doi.org/10.1021/acsami.6b06738

Journal Article Type	Article
Acceptance Date	Aug 2, 2016
Online Publication Date	Aug 2, 2016
Publication Date	Aug 31, 2016
Deposit Date	Aug 3, 2016
Publicly Available Date	Aug 3, 2016
Journal	ACS Applied Materials and Interfaces
Print ISSN	1944-8244
Electronic ISSN	1944-8252
Publisher	American Chemical Society
Peer Reviewed	Peer Reviewed
Volume	8
Issue	34
Pages	22658-22663
DOI	https://doi.org/10.1021/acsami.6b06738

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