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Literature DB >> 18550070

Chromatographic separations in a nanocapillary under pressure-driven conditions.

Xiayan Wang¹, Jianzheng Kang, Shili Wang, Joann J Lu, Shaorong Liu.

Abstract

We report a unique property of nanocapillaries for chromatographic separations of ionic species. Due to the electric double layer overlap, ions are unevenly distributed inside a nanochannel, with counterions enriched near the wall and co-ions concentrated in the middle of the channel. As a pressure-driven flow is induced, the co-ions will move faster than the counterions. This differential transport results in a chromatographic separation. In this work, we introduce the fundamental mechanism of this separation technology and demonstrate its application for DNA separations. An outstanding feature of this technique is that each separation consumes less than 1 pL sample and generates less than 0.1 nL waste. We also apply this technique for separations of DNA molecules, and efficiencies of more than 1,00000 plates per meter are obtained.

Mesh：

Substances：
DNA

Year: 2008 PMID： 18550070 PMCID： PMC2583104 DOI： 10.1016/j.chroma.2008.05.088

Source DB: PubMed Journal: J Chromatogr A ISSN： 0021-9673 Impact factor: 4.759

17 in total

1. Separation of long DNA molecules in a microfabricated entropic trap array.

Authors: J Han; H G Craighead
Journal: Science Date: 2000-05-12 Impact factor: 47.728

2. Characterization and optimization of an entropic trap for DNA separation.

Authors: Jongyoon Han; Harold G Craighead
Journal: Anal Chem Date: 2002-01-15 Impact factor: 6.986

3. Folding transition of large DNA completely inhibits the action of a restriction endonuclease as revealed by single-chain observation.

Authors: Hidehiro Oana; Kanta Tsumoto; Yuko Yoshikawa; Kenichi Yoshikawa
Journal: FEBS Lett Date: 2002-10-23 Impact factor: 4.124

Chromatographic separations in a nanocapillary under pressure-driven conditions.

1. Separation of long DNA molecules in a microfabricated entropic trap array.

2. Characterization and optimization of an entropic trap for DNA separation.

3. Folding transition of large DNA completely inhibits the action of a restriction endonuclease as revealed by single-chain observation.

4. Electrokinetic transport in nanochannels. 2. Experiments.

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

6. Electrokinetic molecular separation in nanoscale fluidic channels.

7. Bio-mimic multichannel microtubes by a facile method.

8. Pressure-driven transport of confined DNA polymers in fluidic channels.

9. Electrical field-flow fractionation of proteins.

10. A robust cross-linked polyacrylamide coating for microchip electrophoresis of dsDNA fragments.

1. Principles and applications of nanofluidic transport.

Review 2. Beyond gel electrophoresis: microfluidic separations, fluorescence burst analysis, and DNA stretching.

3. Nanocapillaries for open tubular chromatographic separations of proteins in femtoliter to picoliter samples.

4. Separation and liquid chromatography using a single carbon nanotube.