Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays

N. Tottori; Y. Sakurai; T. Nisisako; Y. Yanagida; T. Hatsuzawa

Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays

N. Tottori, Y. Sakurai, T. Nisisako, Y. Yanagida, T. Hatsuzawa

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

Abstract

We present a novel deterministic lateral displacement (DLD) microfluidic device with thermally tunable separation capability. To flexibly change the critical diameter (Dc) of the separation array, we fabricated DLD micropillars made of poly-N-isopropylacrylamide, a thermo-responsive hydrogel, in a polydimethyl siloxane microfluidic channel. The prepared DLD pillars shrunk at a high temperature (>30°C) and swelled at a low temperature (<30°C) in an aqueous solution because of their characteristic hydrophilic-hydrophobic phase transitions. By heating and cooling the DLD device across the transition temperature, the D_ccould be continuously changed and the separation mode of the model particles could be switched.

Original language	English
Title of host publication	20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016
Publisher	Chemical and Biological Microsystems Society
Pages	140-141
Number of pages	2
ISBN (Electronic)	9780979806490
Publication status	Published - Jan 1 2016
Externally published	Yes
Event	20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016 - Dublin, Ireland Duration: Oct 9 2016 → Oct 13 2016

Publication series

Name	20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016

Other

Other	20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016
Country/Territory	Ireland
City	Dublin
Period	10/9/16 → 10/13/16

All Science Journal Classification (ASJC) codes

Control and Systems Engineering

Cite this

Tottori, N., Sakurai, Y., Nisisako, T., Yanagida, Y., & Hatsuzawa, T. (2016). Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays. In 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016 (pp. 140-141). (20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016). Chemical and Biological Microsystems Society.

Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays. / Tottori, N.; Sakurai, Y.; Nisisako, T. et al.
20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016. Chemical and Biological Microsystems Society, 2016. p. 140-141 (20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016).

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

Tottori, N, Sakurai, Y, Nisisako, T, Yanagida, Y & Hatsuzawa, T 2016, Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays. in 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016. 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016, Chemical and Biological Microsystems Society, pp. 140-141, 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016, Dublin, Ireland, 10/9/16.

Tottori N, Sakurai Y, Nisisako T, Yanagida Y, Hatsuzawa T. Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays. In 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016. Chemical and Biological Microsystems Society. 2016. p. 140-141. (20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016).

Tottori, N. ; Sakurai, Y. ; Nisisako, T. et al. / Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays. 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016. Chemical and Biological Microsystems Society, 2016. pp. 140-141 (20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016).

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abstract = "We present a novel deterministic lateral displacement (DLD) microfluidic device with thermally tunable separation capability. To flexibly change the critical diameter (Dc) of the separation array, we fabricated DLD micropillars made of poly-N-isopropylacrylamide, a thermo-responsive hydrogel, in a polydimethyl siloxane microfluidic channel. The prepared DLD pillars shrunk at a high temperature (>30°C) and swelled at a low temperature (<30°C) in an aqueous solution because of their characteristic hydrophilic-hydrophobic phase transitions. By heating and cooling the DLD device across the transition temperature, the Dccould be continuously changed and the separation mode of the model particles could be switched.",

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N2 - We present a novel deterministic lateral displacement (DLD) microfluidic device with thermally tunable separation capability. To flexibly change the critical diameter (Dc) of the separation array, we fabricated DLD micropillars made of poly-N-isopropylacrylamide, a thermo-responsive hydrogel, in a polydimethyl siloxane microfluidic channel. The prepared DLD pillars shrunk at a high temperature (>30°C) and swelled at a low temperature (<30°C) in an aqueous solution because of their characteristic hydrophilic-hydrophobic phase transitions. By heating and cooling the DLD device across the transition temperature, the Dccould be continuously changed and the separation mode of the model particles could be switched.

AB - We present a novel deterministic lateral displacement (DLD) microfluidic device with thermally tunable separation capability. To flexibly change the critical diameter (Dc) of the separation array, we fabricated DLD micropillars made of poly-N-isopropylacrylamide, a thermo-responsive hydrogel, in a polydimethyl siloxane microfluidic channel. The prepared DLD pillars shrunk at a high temperature (>30°C) and swelled at a low temperature (<30°C) in an aqueous solution because of their characteristic hydrophilic-hydrophobic phase transitions. By heating and cooling the DLD device across the transition temperature, the Dccould be continuously changed and the separation mode of the model particles could be switched.

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Thermally tunable deterministic lateral displacement through hydrogel micro pillar arrays

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