Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization

Hyungkook Jeon; Geunbae Lim

Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization

Hyungkook Jeon, Geunbae Lim

Dept. of Manufacturing Systems and Design Engineering

Pohang University of Science and Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

In this paper, we report a novel continuous cell lysis and separation device using the electrical repulsion in the depletion region formed by ion concentration polarization (ICP). In the depletion region, strong electrophoretic force is applied to charged materials due to the concentrated electric field. Using the strong electrophoretic force, we lysed cells and separated molecule dyes whose size range is order of 1 nm in the same device. Therefore, the developed multifunctional microfluidic chip is expected to be a very useful tool as an integrated system for analyzing biomolecules in cells such as DNAs and proteins.

Original language	English
Title of host publication	18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014
Publisher	Chemical and Biological Microsystems Society
Pages	2459-2461
Number of pages	3
ISBN (Electronic)	9780979806476
State	Published - 2014
Event	18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014 - San Antonio, United States Duration: 26 Oct 2014 → 30 Oct 2014

Publication series

Name	18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014

Conference

Conference	18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014
Country/Territory	United States
City	San Antonio
Period	26/10/14 → 30/10/14

Keywords

Cell lysis
Integrated analysis system
Ion concentration polarization
Separation

Cite this

Jeon, H., & Lim, G. (2014). Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization. In 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014 (pp. 2459-2461). (18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014). Chemical and Biological Microsystems Society.

Jeon, Hyungkook ; Lim, Geunbae. / Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization. 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014. Chemical and Biological Microsystems Society, 2014. pp. 2459-2461 (18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014).

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title = "Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization",

abstract = "In this paper, we report a novel continuous cell lysis and separation device using the electrical repulsion in the depletion region formed by ion concentration polarization (ICP). In the depletion region, strong electrophoretic force is applied to charged materials due to the concentrated electric field. Using the strong electrophoretic force, we lysed cells and separated molecule dyes whose size range is order of 1 nm in the same device. Therefore, the developed multifunctional microfluidic chip is expected to be a very useful tool as an integrated system for analyzing biomolecules in cells such as DNAs and proteins.",

keywords = "Cell lysis, Integrated analysis system, Ion concentration polarization, Separation",

author = "Hyungkook Jeon and Geunbae Lim",

note = "Publisher Copyright: {\textcopyright} 14CBMS.; 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014 ; Conference date: 26-10-2014 Through 30-10-2014",

year = "2014",

language = "English",

series = "18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014",

publisher = "Chemical and Biological Microsystems Society",

pages = "2459--2461",

booktitle = "18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014",

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Jeon, H & Lim, G 2014, Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization. in 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014. 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014, Chemical and Biological Microsystems Society, pp. 2459-2461, 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014, San Antonio, United States, 26/10/14.

Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization. / Jeon, Hyungkook; Lim, Geunbae.
18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014. Chemical and Biological Microsystems Society, 2014. p. 2459-2461 (18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization

AU - Jeon, Hyungkook

AU - Lim, Geunbae

N1 - Publisher Copyright: © 14CBMS.

PY - 2014

Y1 - 2014

N2 - In this paper, we report a novel continuous cell lysis and separation device using the electrical repulsion in the depletion region formed by ion concentration polarization (ICP). In the depletion region, strong electrophoretic force is applied to charged materials due to the concentrated electric field. Using the strong electrophoretic force, we lysed cells and separated molecule dyes whose size range is order of 1 nm in the same device. Therefore, the developed multifunctional microfluidic chip is expected to be a very useful tool as an integrated system for analyzing biomolecules in cells such as DNAs and proteins.

AB - In this paper, we report a novel continuous cell lysis and separation device using the electrical repulsion in the depletion region formed by ion concentration polarization (ICP). In the depletion region, strong electrophoretic force is applied to charged materials due to the concentrated electric field. Using the strong electrophoretic force, we lysed cells and separated molecule dyes whose size range is order of 1 nm in the same device. Therefore, the developed multifunctional microfluidic chip is expected to be a very useful tool as an integrated system for analyzing biomolecules in cells such as DNAs and proteins.

KW - Cell lysis

KW - Integrated analysis system

KW - Ion concentration polarization

KW - Separation

UR - https://www.scopus.com/pages/publications/84941670179

M3 - Conference contribution

AN - SCOPUS:84941670179

T3 - 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014

SP - 2459

EP - 2461

BT - 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014

PB - Chemical and Biological Microsystems Society

T2 - 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014

Y2 - 26 October 2014 through 30 October 2014

ER -

Jeon H, Lim G. Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization. In 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014. Chemical and Biological Microsystems Society. 2014. p. 2459-2461. (18th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2014).

Development of continuous cell lysis and separation device using repulsive force generated by ion concentration polarization

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Keywords

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