Acceleration of absolute negative mobility
Regtmeier J, Grauwin S, Eichhorn R, Reimann P, Anselmetti D, Ros A (2007)
Journal of Separation Science 30(10): 1461-1467.
Zeitschriftenaufsatz
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Autor*in
Regtmeier, JanUniBi;
Grauwin, Sebastian;
Eichhorn, Ralf;
Reimann, PeterUniBi;
Anselmetti, DarioUniBi ;
Ros, Alexandra
Einrichtung
Fakultät für Physik > AG Biophysik und angewandte Nanowissenschaften
Centrum für Biotechnologie > Arbeitsgruppe D. Anselmetti
Centrum für Biotechnologie > Institut für Biophysik und Nanowissenschaften
Fakultät für Physik > AG Theorie der Kondensierten Materie
SFB 613 Physik von Einzelmolekülprozessen/mol.Erkennung in organ.Sys.
Centrum für Biotechnologie > Arbeitsgruppe D. Anselmetti
Centrum für Biotechnologie > Institut für Biophysik und Nanowissenschaften
Fakultät für Physik > AG Theorie der Kondensierten Materie
SFB 613 Physik von Einzelmolekülprozessen/mol.Erkennung in organ.Sys.
Abstract / Bemerkung
Recently, the counter intuitive migration phenomenon of absolute negative mobility (ANM) has been demonstrated to occur for colloidal particles in a suitably arranged post array within a microfluidic device [1]. This effect is based on the interplay of Brownian motion, nonlinear dynamics induced through microstructuring, and nonequilibrium driving, and results in a particle movement opposite to an applied static force. Simultaneously, the migration of a different particle species along the direction of the static force is possible [19], thus providing a new tool for particle sorting in microfluidic device format. The so far demonstrated maximum velocities for micrometer-sized spheres are slow, i.e., in the order of 10 nm per second. Here, we investigate numerically, how maximum ANM velocities can be significantly accelerated by a careful adjustment of the post size and shape. Based on this numerical analysis, a post design is developed and tested in a microfluidic device made of PDMS. The experiment reveals an order of magnitude increase in velocity.
Stichworte
separation;
absolute negative mobility;
microfluidics
Erscheinungsjahr
2007
Zeitschriftentitel
Journal of Separation Science
Band
30
Ausgabe
10
Seite(n)
1461-1467
ISSN
1615-9306
eISSN
1615-9314
Page URI
https://pub.uni-bielefeld.de/record/1593009
Zitieren
Regtmeier J, Grauwin S, Eichhorn R, Reimann P, Anselmetti D, Ros A. Acceleration of absolute negative mobility. Journal of Separation Science. 2007;30(10):1461-1467.
Regtmeier, J., Grauwin, S., Eichhorn, R., Reimann, P., Anselmetti, D., & Ros, A. (2007). Acceleration of absolute negative mobility. Journal of Separation Science, 30(10), 1461-1467. https://doi.org/10.1002/jssc.200600546
Regtmeier, Jan, Grauwin, Sebastian, Eichhorn, Ralf, Reimann, Peter, Anselmetti, Dario, and Ros, Alexandra. 2007. “Acceleration of absolute negative mobility”. Journal of Separation Science 30 (10): 1461-1467.
Regtmeier, J., Grauwin, S., Eichhorn, R., Reimann, P., Anselmetti, D., and Ros, A. (2007). Acceleration of absolute negative mobility. Journal of Separation Science 30, 1461-1467.
Regtmeier, J., et al., 2007. Acceleration of absolute negative mobility. Journal of Separation Science, 30(10), p 1461-1467.
J. Regtmeier, et al., “Acceleration of absolute negative mobility”, Journal of Separation Science, vol. 30, 2007, pp. 1461-1467.
Regtmeier, J., Grauwin, S., Eichhorn, R., Reimann, P., Anselmetti, D., Ros, A.: Acceleration of absolute negative mobility. Journal of Separation Science. 30, 1461-1467 (2007).
Regtmeier, Jan, Grauwin, Sebastian, Eichhorn, Ralf, Reimann, Peter, Anselmetti, Dario, and Ros, Alexandra. “Acceleration of absolute negative mobility”. Journal of Separation Science 30.10 (2007): 1461-1467.
Daten bereitgestellt von European Bioinformatics Institute (EBI)
6 Zitationen in Europe PMC
Daten bereitgestellt von Europe PubMed Central.
Deterministic Absolute Negative Mobility for Micro- and Submicrometer Particles Induced in a Microfluidic Device.
Luo J, Muratore KA, Arriaga EA, Ros A., Anal Chem 88(11), 2016
PMID: 27149097
Luo J, Muratore KA, Arriaga EA, Ros A., Anal Chem 88(11), 2016
PMID: 27149097
Light control of silver nanoparticle's diffusion.
Albaladejo S, Marqués MI, Sáenz JJ., Opt Express 19(12), 2011
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Albaladejo S, Marqués MI, Sáenz JJ., Opt Express 19(12), 2011
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Insulator-based dielectrophoretic single particle and single cancer cell trapping.
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Speer D, Eichhorn R, Reimann P., Phys Rev Lett 102(12), 2009
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Speer D, Eichhorn R, Reimann P., Phys Rev Lett 102(12), 2009
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Observation of negative absolute resistance in a Josephson junction.
Nagel J, Speer D, Gaber T, Sterck A, Eichhorn R, Reimann P, Ilin K, Siegel M, Koelle D, Kleiner R., Phys Rev Lett 100(21), 2008
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Nagel J, Speer D, Gaber T, Sterck A, Eichhorn R, Reimann P, Ilin K, Siegel M, Koelle D, Kleiner R., Phys Rev Lett 100(21), 2008
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Transient chaos induces anomalous transport properties of an underdamped Brownian particle.
Speer D, Eichhorn R, Reimann P., Phys Rev E Stat Nonlin Soft Matter Phys 76(5 pt 1), 2007
PMID: 18233626
Speer D, Eichhorn R, Reimann P., Phys Rev E Stat Nonlin Soft Matter Phys 76(5 pt 1), 2007
PMID: 18233626
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