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Literature DB >> 20017532

Stabilization of ion concentration polarization using a heterogeneous nanoporous junction.

Pilnam Kim¹, Sung Jae Kim, Jongyoon Han, Kahp Y Suh.

Abstract

We demonstrate a recycled ion-flux through heterogeneous nanoporous junctions, which induce stable ion concentration polarization with an electric field. The nanoporous junctions are based on integration of ionic hydrogels whose surfaces are negatively or positively charged for cationic or anionic selectivity, respectively. Such heterogeneous junctions can be matched up in a way to achieve continuous ion-flux operation for stable concentration gradient or ionic conductance. Furthermore, the combined junctions can be used to accumulate ions on a specific region of the device.

Entities: Chemical Disease

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Year: 2010 PMID： 20017532 PMCID： PMC2806642 DOI： 10.1021/nl9023319

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

26 in total

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Authors: Rahul Dhopeshwarkar; Li Sun; Richard M Crooks
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2. From nanochannel-induced proton conduction enhancement to a nanochannel-based fuel cell.

Authors: Shaorong Liu; Qiaosheng Pu; Lin Gao; Carol Korzeniewski; Carolyn Matzke
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3. Eddies in a bottleneck: an arbitrary Debye length theory for capillary electroosmosis.

Authors: Stella Y Park; Christopher J Russo; Daniel Branton; Howard A Stone
Journal: J Colloid Interface Sci Date: 2006-01-09 Impact factor: 8.128

4. On-chip millionfold sample stacking using transient isotachophoresis.

Authors: Byoungsok Jung; Rajiv Bharadwaj; Juan G Santiago
Journal: Anal Chem Date: 2006-04-01 Impact factor: 6.986

5. Hydrogel-based reconfigurable components for microfluidic devices.

Authors: Dongshin Kim; David J Beebe
Journal: Lab Chip Date: 2006-12-07 Impact factor: 6.799

6. Charge- and size-based separation of macromolecules using ultrathin silicon membranes.

Authors: Christopher C Striemer; Thomas R Gaborski; James L McGrath; Philippe M Fauchet
Journal: Nature Date: 2007-02-15 Impact factor: 49.962

7. Nanofluidic diode.

Authors: Ivan Vlassiouk; Zuzanna S Siwy
Journal: Nano Lett Date: 2007-02-21 Impact factor: 11.189

8. Concentration polarization and nonlinear electrokinetic flow near a nanofluidic channel.

Authors: Sung Jae Kim; Ying-Chih Wang; Jeong Hoon Lee; Hongchul Jang; Jongyoon Han
Journal: Phys Rev Lett Date: 2007-07-25 Impact factor: 9.161

9. Adaptive liquid microlenses activated by stimuli-responsive hydrogels.

Authors: Liang Dong; Abhishek K Agarwal; David J Beebe; Hongrui Jiang
Journal: Nature Date: 2006-08-03 Impact factor: 49.962

10. On the propagation of concentration polarization from microchannel-nanochannel interfaces. Part II: Numerical and experimental study.

Authors: Thomas A Zangle; Ali Mani; Juan G Santiago
Journal: Langmuir Date: 2009-04-09 Impact factor: 3.882

19 in total

10. Tunable membranes for free-flow zone electrophoresis in PDMS microchip using guided self-assembly of silica microbeads.

Authors: Yong-Ak Song; Lidan Wu; Steven R Tannenbaum; John S Wishnok; Jongyoon Han
Journal: Anal Chem Date: 2013-11-25 Impact factor: 6.986

Stabilization of ion concentration polarization using a heterogeneous nanoporous junction.

1. Electrokinetic concentration enrichment within a microfluidic device using a hydrogel microplug.

2. From nanochannel-induced proton conduction enhancement to a nanochannel-based fuel cell.

3. Eddies in a bottleneck: an arbitrary Debye length theory for capillary electroosmosis.

4. On-chip millionfold sample stacking using transient isotachophoresis.

5. Hydrogel-based reconfigurable components for microfluidic devices.

6. Charge- and size-based separation of macromolecules using ultrathin silicon membranes.

7. Nanofluidic diode.

8. Concentration polarization and nonlinear electrokinetic flow near a nanofluidic channel.

9. Adaptive liquid microlenses activated by stimuli-responsive hydrogels.

10. On the propagation of concentration polarization from microchannel-nanochannel interfaces. Part II: Numerical and experimental study.

1. Capillarity ion concentration polarization for spontaneous biomolecular preconcentration mechanism.

2. Preconcentration of diluted mixed-species samples following separation and collection in a micro-nanofluidic device.

3. Effects of constant voltage on time evolution of propagating concentration polarization.

4. Nanoelectrokinetic bufferchannel-less radial preconcentrator and online extractor by tunable ion depletion layer.

5. Review article: Fabrication of nanofluidic devices.

6. Enhancing protease activity assay in droplet-based microfluidics using a biomolecule concentrator.

Review 7. Electrokinetic ion transport in nanofluidics and membranes with applications in bioanalysis and beyond.

8. High yield sample preconcentration using a highly ion-conductive charge-selective polymer.

9. Optofluidic in situ maskless lithography of charge selective nanoporous hydrogel for DNA preconcentration.

10. Tunable membranes for free-flow zone electrophoresis in PDMS microchip using guided self-assembly of silica microbeads.