Hsiao Ping Chen scite author profile

Hsiao Ping Chen

2Publications

6Citation Statements Received

0Citation Statements Given

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National Chung Cheng University

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Dynamic superconcentration at critical-point double-layer gates of conducting nanoporous granules due to asymmetric tangential fluxes

Wang

Wei

Chen

et al. 2008

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A transient 10(6)-fold concentration of double-layer counterions by a high-intensity electric field is demonstrated at the exit pole of a millimeter-sized conducting nanoporous granule that permits ion permeation. The phenomenon is attributed to a unique counterion screening dynamics that transforms half of the surface field into a converging one toward the ejecting pole. The resulting surface conduction flux then funnels a large upstream electro-osmotic convective counterion flux into the injecting hemisphere toward the zero-dimensional gate of the ejecting hemisphere to produce the superconcentration. As the concentrated counterion is ejected into the electroneutral bulk electrolyte, it attracts co-ions and produce a corresponding concentration of the co-ions. This mechanism is also shown to trap and concentrate co-ion microcolloids of micron sizes too (macroions) and hence has potential application in bead-based molecular assays.

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The Debye light scattering equation’s scaling relation reveals the purity of synthetic dendrimers

et al. 2016

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Hsiao Ping Chen

Dynamic superconcentration at critical-point double-layer gates of conducting nanoporous granules due to asymmetric tangential fluxes

The Debye light scattering equation’s scaling relation reveals the purity of synthetic dendrimers

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