Microfluidic device to separate micro-beads with various fluorescence intensities

Sensors and Actuators, B: Chemical

Volumn 160, Issue 1, 2011, Pages 1536-1543

  Kim, Hyung Joon ^a   Moon, Hui Sung ^a   Kwak, Bong Seop ^a   Jung, Hyo Il ^a  

^a Yonsei University   (South Korea)

Author keywords

Dielectrophoresis (DEP); Fluorescence activated cell sorter (FACS); Microfluidics

Indexed keywords

532 NM LASER; DIELECTROPHORETIC FORCES; EXPRESSION LEVELS; FLUORESCENCE INTENSITIES; FLUORESCENCE-ACTIVATED CELL SORTERS; FLUORESCENT PROTEIN; MICRO-FLUIDIC DEVICES; MICROBEADS; MICROFLUIDIC CHANNEL; PHOTOMULTIPLIER TUBE; POLYSTYRENE BEADS; RELATIVE INTENSITY; SEPARATION PROCESS; SHEATH FLOWS;

ELECTROPHORESIS; FLUIDIC DEVICES; FLUORESCENCE; GENETIC ENGINEERING; INLET FLOW; MICROELECTRODES; PHOTOMULTIPLIERS; POLYSTYRENES;

MICROFLUIDICS;

EID: 81155150018     PISSN: 09254005     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.snb.2011.08.013     Document Type: Article

References (29)

1. A.M. Sheehy, N.C. Gaddis, J.D. Choi, and M.H. Malim Isolation of a human gene that inhibits HIV-1 infection and is suppressed by the viral Vif protein Nature 418 2002 646 650
2. A.P. Mann, A. Verma, G. Sethi, B. Manavathi, H. Wang, J.Y. Fok, A.B. Kunnumakkara, R. Kumar, B.B. Aggarwal, and K. Mehta Overexpression of tissue transglutaminase leads to constitutive activation of nuclear factor-κB in cancer cells: delineation of a novel pathway Cancer Research 66 2006 8788 8795
3. Y.H. Jee, L.S. Mangala, J.Y. Fok, Y.G. Lin, W.M. Merritt, W.A. Spannuth, A.M. Nick, D.J. Fiterman, P.E. Vivas-Mejia, M.T. Deavers, R.L. Coleman, G. Lopez-Berestein, K. Mehta, and A.K. Sood Clinical and biological significance of tissue transglutaminase in ovarian carcinoma Cancer Research 68 2008 5849 5858
4. S.H. Cho, J.M. Godin, C.-H. Chen, W. Qiao, H. Lee, and Y.-H. Lo Review article: recent advancements in optofluidic flow cytometer Biomicrofluidics 4 2010 043001
5. A.Y. Fu, C. Spence, A. Scherer, F.H. Arnold, and S.R. Quake A microfabricated fluorescence-activated cell sorter Nature Biotechnology 17 1999 1109 1111
6. B. Yao, G.A. Luo, X. Feng, W. Wang, L.X. Chen, and Y.M. Wang A microfluidic device based on gravity and electric force driving for flow cytometry and fluorescence activated cell sorting Lab on a Chip-Miniaturisation for Chemistry and Biology 4 2004 603 607
7. P.S. Dittrich, and P. Schwille An integrated microfluidic system for reaction, high-sensitivity detection, and sorting of fluorescent cells and particles Analytical Chemistry 75 2003 5767 5774
8. Y. Kang, X. Wu, Y.N. Wang, and D. Li On-chip fluorescence-activated particle counting and sorting system Analytica Chimica Acta 626 2008 97 103
9. S.Y. Yang, S.K. Hsiung, Y.C. Hung, C.M. Chang, T.L. Liao, and G.B. Lee A cell counting/sorting system incorporated with a microfabricated flow cytometer chip Measurement Science and Technology 17 2006 2001 2009
10. J. Krüger, K. Singh, A. O'Neill, C. Jackson, A. Morrison, and P. O'Brein Development of a microfluidic device for fluorescence activated cell sorting Journal of Micromechanics and Microengineering 12 2002 486 494
11. P. Chen, X. Feng, R. Hu, J. Sun, W. Du, and B.F. Liu Hydrodynamic gating valve for microfluidic fluorescence-activated cell sorting Analytica Chimica Acta 663 2010 1 6
12. A. Wolff, I.R. Perch-Nielsen, U.D. Larsen, P. Friis, G. Goranovic, C.R. Poulsen, J.P. Kutter, and P. Telleman Integrating advanced functionality in a microfabricated high-throughput fluorescent-activated cell sorter Lab on a Chip-Miniaturisation for Chemistry and Biology 3 2003 22 27
13. A.R. Abate, J.J. Agresti, and D.A. Weitz Microfluidic sorting with high-speed single-layer membrane valves Applied Physics Letters 96 2010
14. S.H. Cho, C.H. Chen, F.S. Tsai, J.M. Godin, and Y.H. Lo Human mammalian cell sorting using a highly integrated micro-fabricated fluorescence-activated cell sorter (μFACS) Lab on a Chip-Miniaturisation for Chemistry and Biology 10 2010 1567 1573
15. H. Sugino, T. Arakawa, Y. Nara, Y. Shirasaki, K. Ozaki, S. Shoji, and T. Funatsu Integration in a multilayer microfluidic chip of 8 parallel cell sorters with flow control by sol-gel transition of thermoreversible gelation polymer Lab on a Chip-Miniaturisation for Chemistry and Biology 10 2010 2559 2565
16. K. Ozaki, H. Sugino, Y. Shirasaki, T. Aoki, T. Arakawa, T. Funatsu, and S. Shoji Microfluidic cell sorter with flow switching triggered by a sol-gel transition of a thermo-reversible gelation polymer Sensors and Actuators B: Chemical 150 2010 449 455
17. H. Sugino, K. Ozaki, Y. Shirasaki, T. Arakawa, S. Shoji, and T. Funatsu On-chip microfluidic sorting with fluorescence spectrum detection and multiway separation Lab on a Chip-Miniaturisation for Chemistry and Biology 9 2009 1254 1260
18. R.W. Applegate Jr., J. Squier, T. Vestad, J. Oakey, D.W.M. Marr, P. Bado, M.A. Dugan, and A.A. Said Microfluidic sorting system based on optical waveguide integration and diode laser bar trapping Lab on a Chip-Miniaturisation for Chemistry and Biology 6 2006 422 426
19. L. Johansson, F. Nikolajeff, S. Johansson, and S. Thorslund On-chip fluorescence-activated cell sorting by an integrated miniaturized ultrasonic transducer Analytical Chemistry 81 2009 5188 5196
20. J.C. Baret, O.J. Miller, V. Taly, M. Ryckelynck, A. El-Harrak, L. Frenz, C. Rick, M.L. Samuels, J.B. Hutchison, J.J. Agresti, D.R. Link, D.A. Weitz, and A.D. Griffiths Fluorescence-activated droplet sorting (FADS): efficient microfluidic cell sorting based on enzymatic activity Lab on a Chip-Miniaturisation for Chemistry and Biology 9 2009 1850 1858
21. J.J. Agresti, E. Antipov, A.R. Abate, K. Ahn, A.C. Rowat, J.C. Baret, M. Marquez, A.M. Klibanov, A.D. Griffiths, and D.A. Weitz Ultrahigh-throughput screening in drop-based microfluidics for directed evolution Proceedings of the National Academy of Sciences of the United States of America 107 2010 4004 4009
22. H.S. Moon, Y.W. Nam, C.P. Jae, and H.I. Jung Dielectrophoretic separation of airborne microbes and dust particles using a microfluidic channel for real-time bioaerosol monitoring Environmental Science and Technology 43 2009 5857 5863
23. M.P. Hughes AC electrokinetics: applications for nanotechnology Nanotechnology 11 2000 124 132
24. P.K. Wong, T.H. Wang, J.H. Deval, and C.M. Ho Electrokinetics in micro devices for biotechnology applications IEEE/ASME Transactions on Mechatronics 9 2004 366 376
25. D.C. Duffy, J.C. McDonald, O.J.A. Schueller, and G.M. Whitesides Rapid prototyping of microfluidic systems in poly(dimethylsiloxane) Analytical Chemistry 70 1998 4974 4984
26. T. Stiles, R. Fallon, T. Vestad, J. Oakey, D.W.M. Marr, J. Squier, and R. Jimenez Hydrodynamic focusing for vacuum-pumped microfluidics Microfluidics and Nanofluidics 1 2005 280 283
27. S. Cesaro-Tadic, G. Dernick, D. Juncker, G. Buurman, H. Kropshofer, B. Michel, C. Fattinger, and E. Delamarche High-sensitivity miniaturized immunoassays for tumor necrosis factor α using microfluidic systems Lab on a Chip-Miniaturisation for Chemistry and Biology 4 2004 563 569
28. A. Piruska, I. Nikcevic, S.H. Lee, C. Ahn, W.R. Heineman, P.A. Limbach, and C.J. Seliskar The autofluorescence of plastic materials and chips measured under laser irradiation Lab on a Chip-Miniaturisation for Chemistry and Biology 5 2005 1348 1354
29. J.G. Kralj, M.T.W. Lis, M.A. Schmidt, and K.F. Jensen Continuous dielectrophoretic size-based particle sorting Analytical Chemistry 78 2006 5019 5025