Simulation of Steady-State Non-Equilibrium Ion Distributions Within a Finite-length Nanofluidic Channel
ORAL
Abstract
Steady-state non-equilibrium distributions of two species of mono-valent ions near and within a charged 2D nanofluidic channel have been examined with and without electroosmotic flow. Large reservoirs are connected by the nanofluidic channel to simulate bulk conditions. Far-from-equilibrium applied voltages create a charge polarization across the nanochannel when the Debye length is comparable to the channel width. Depletion zones of each ion species are observed.
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Authors
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Will Booth
Physics Dept., West Virginia University, West Virginia University, Physics Dept, West Virginia University
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Jarrod Schiffbauer
Physics Dept, West Virginia University, West Virginia University, Physics Dept., West Virginia University
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Josh Fernandez
Chemical Engineering. Dept., West Virginia University, West Virginia University
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Kathleen Kelly
Chemistry Dept., West Virginia University, West Virginia University, Chemistry Dept. West Virginia University
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Aaron Timperman
Chemistry Dept., West Virginia University, West Virginia University, Chemistry Dept. West Virginia University
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Boyd Edwards
Physics Dept. West Virginia University, West Virginia University, Physics Dept., West Virginia University