Effect of Field Direction on Electrowetting in a Nanopore

We manifest a significant influence of field direction and polarity on surface wetting, when the latter is tuned by application of an external electric field. Thermodynamics of field-induced filling of hydrocarbon-like nanopores with water is studied by open ensemble molecular simulation. Increased...

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Veröffentlicht in:	Journal of the American Chemical Society 2007-03, Vol.129 (9), p.2504-2510
Hauptverfasser:	Bratko, Dusan, Daub, Christopher D, Leung, Kevin, Luzar, Alenka
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container_title	Journal of the American Chemical Society
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creator	Bratko, Dusan Daub, Christopher D Leung, Kevin Luzar, Alenka
description	We manifest a significant influence of field direction and polarity on surface wetting, when the latter is tuned by application of an external electric field. Thermodynamics of field-induced filling of hydrocarbon-like nanopores with water is studied by open ensemble molecular simulation. Increased field strength consistently results in water-filling and electrostriction in hydrophobic nanopores. A threshold field commensurate with surface charge density of about one elementary charge per 10 nm2 suffices to render prototypical paraffin surfaces hydrophilic. When a field is applied in the direction perpendicular to the confining walls, the competition between orientational polarization and angle preferences of interfacial water molecules relative to the walls results in an asymmetric wettability of opposing surfaces (Janus interface). Reduction of surface free energy observed upon alignment of confinement walls with field direction suggests a novel mechanism whereby the applied electric field can operate selectively on water-filled nanotubes while empty ones remain unaffected.
doi_str_mv	10.1021/ja0659370
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title	Effect of Field Direction on Electrowetting in a Nanopore
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