Recent trends in dielectrophoresis

Informacije MIDEM

Volumn 40, Issue 4, 2010, Pages 253-262

  Xu, Guolin ^a   Tay, Francis E H ^a,b   Tresset, Guillaume ^c   Iliescu, Florina S ^d   Avram, Andrei ^e   Iliescu, Ciprian ^a  

^a INSTITUTE OF BIOENGINEERING AND NANOTECHNOLOGY   (Singapore)

^b NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^c CNRS   (France)

^d NANYANG TECHNOLOGICAL UNIVERSITY   (Singapore)

^e NATIONAL INSTITUTE FOR RESEARCH AND DEVELOPMENT IN MICROTECHNOLOGIES   (Romania)

Author keywords

BioMEMS; DEP 3D filter; Dielectrophoresis; Dielectrophoretic chip; Dielectrophoretic devices

Indexed keywords

EID: 79956292289     PISSN: 03529045     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (78)

1. P.S. Dittrich, A. Manz, Lab-on-a-chip: microfluidics in drug discovery, Nature Reviews Drug Discovery, 5, 2006, 210-218.
2. J. West, M. Becker, S. Tombrink, A. Manz, Micro total analysis systems: latest achievements, Anal. Chem., 80, 2008, 4403-4419.
3. C. Iliescu, Microfluidics in glass: technologies and applications, Inf. MIDEM. 36, 2006, 204-211.
4. J. Friend, L. Yeo, Fabrication of microfluidic devices using polydimethylsiloxane, Biomicrofluidics, 4, 2010, 026502.
5. H. Taylor, D. Boning, C. Iliescu, B. Chen, Computationally efficient modelling of pattern dependencies in the micro-embossing of thermoplastic polymers, Microelectr. Eng., 85/5-6, 2008 1453-1456.
6. E.P. Dupont, R. Luisier, MAM. Gijs, NOA 63 as a UV-curable material for fabrication of microfluidic channels with native hydrophilicity, Microelectr. Eng 87/5-8, 2010 1253-1255.
7. B. Chen, J. Wei, C. Iliescu, Sonophoretic enhanced microneedles array (SEMAHmproving the efficiency of transdermal drug delivery, Sens Act. B, 145/1, 2010, 54-60.
8. M. Ni, W. H. Tong, D. Choudhury, N. A. A. Rahim, C. Iliescu, H. Yu, Cell Culture on MEMS Platforms: A Review, Int. J. of Mol. Sci., 10/12, 2009, 5411-5441.
9. C. Iliescu, G. Xu, E. Barbarini, M. Avram, A. Avram, Microfluidic device for continuous magnetophoretic separation of white blood cells, Microsys. Tech., 15/8, 2008, 1157-1162.
10. C. Iliescu, D.P. Poenar, S.T. Selvan, Frequency dependence on the accuracy of electrical impedance spectroscopy measurements in microfluidic devices, J. Micromech. Microeng., 20/ 2,2010,022001.
11. C. Iliescu F.E.H. Tay, G.L. Xu, L Yu, V. Samper, A dielectrophoretic chip packaged at wafer level, Microsys.Tech., 12/10-11, 2006, 987-992.
12. H.A. Pohl, Dielectrophoresis, Cambridge University Press, 1978.
13. T.B. Jones, J.P. Kraybill, Active feedback controlled dielectrophoretic lévitation, J. Appl. Phys. 60, 1986, 1247-1252.
14. K.V.I.S. Kaler, TB. Jones, Dielectrophoretic spectra of single cells determined by feedback-controlled levitation. Biophys. J., 57, 1990, 173-182.
15. J. Gimsa, P. Marszalek, U. Loewe, T.Y. Tsong, Dielectrophoresis and electrorotation of neurospora slime and murine myeloma cells. Biophys. J., 60, 1991, 749-760.
16. TB. Jones, Electromechanics of particle, Cambridge Univ. Press, 1995.
17. A. Castellanos, A Ramos, A González, N G Green, H Morgan, Electrohydrodynamics and dielectrophoresis in microsystems: scaling laws, J. Phys. D 36, 2003, 2584-2597.
18. M-T. Wei, J. Junio, H.D. Ou-Yang, Direct measurements of the frequency-dependent dielectrophoresis force, Biomicrofluidics 3, 2009, 012003.
19. C. Zhang, K. Khoshmanesh, A. Mitchell, K. Kalantar-Zadeh, Dielectrophoresis for manipulation of micro/nano particles in microfluidic systems, Anal. Bioanal. Chem. 396/1, 2010, 401-420.
20. M.M. Meighan, S.J. R. Staton, M.A. Hayes, Bioanalytical separations using electric field gradient techniques, Electrophoresis 30/5, 2009, 852-865.
21. R. Pethig, Dielectrophoresis: Status of the theory, technology, and applications, Biomicrofluidics 4, 2010, 022811.
22. F.E.H. Tay, L. Yu, C. Iliescu, Particle manipulation by miniaturised dielectrophoretic devices, Defense Science Journal, 59/ 6, 2009, 595-604.
23. Y. Kang, D. Li, Electrokinetic motion of particles and cells in microchannels, Microfluid Nanofluid 6, 2009, 431 -460.
24. R. Pethig, M.S. Talary, R.S. Lee, Enhancing traveling-wave dielectrophoresis with signal superposition, IEEE Eng. Med. Biol. Mag. 22/6, 2003, 43-50.
25. L Cui, D. Holmes, H. Morgan, The dielectrophoretic levitation and separation of latex beads in microchips, Electrophoresis 22, 2001, 3893-3901.
26. E. Choi, B. Kim, J. Park, High-throughput microparticle separation using gradient traveling wave dielectrophoresis, J. Micromech. Microeng., 19, 2009, 125014.
27. U. Lei, C.W. Huang, J. Chen, C.Y. Yang, Y.J. Lo, A. Wo, C.F. Chen, T.W. Fung, A travelling wave dielectrophoretic pump for blood delivery, Lab Chip 9, 2009, 1349-1356.
28. E.B. Cummings, A. K. Singh, Dielectrophoresis in microchips containing arrays of insulating posts: theoretical and experimental results, Anal. Chem. 75, 2003, 4724-4731.
29. C. Iliescu, G. Xu, F.C. Loe, P.L Ong, F.E.H. Tay, A 3D dielectrophoretic filter chip, Electrophoresis 28/7, 2007, 1107-1114.
30. G.O.F. Parikesit A.P. Markesteijn, O.M. Piciu, A. Bossche, J. Westerweel, I.T. Young, Y. Garini, Size-dependent trajectories of DNA macromolecules due to insulative dielectrophoresis in submicrometer-deep fluidic channels, Biomicrofluidics, 2, 2008, 024103.
31. N. Lewpiriyawong, C. Yang, Y.C. Lam, Dielectrophoretic manipulation of particles in a modified microfluidic H filter with multiinsulating blocks, Biomicrofluidics 2, 2008, 034105.
32. C-P. Jen, C.-T. Huang and H-Y. Shih, Hydrodynamic separation of cells utilizing insulator-based dielectrophoresis Microsystem Technologies, 16/7, 2010, 1097-1104.
33. P.Y. Chiou, AT. Ohta, M.C. Wu, Massively parallel manipulation of single cells and microparticles using optical images, Nature, 436/21, 2005, 370-372.
34. S. Lee, H.J. Park, J.S. Yoon, K.H. Kang, Optoelectrofluidic field separation based on light-intensity gradients, Biomicrofluidics, 4, 2010, 034102.
35. H. Hwang, D.H. Lee, W. Choi, J.K. Park, Enhanced discrimination of normal oocytes using optically induced pulling-up dielectrophoretic force, Biomicrofluidics, 3, 2009, 014103.
36. C.H. Kua, Y.C. Lam, I. Rodriguez, C. Yang, K. Youcef-Toumi, Dynamic cell fractiona-tion and transportation using moving dielectrophoresis, Anal. Chem., 79, 2007, 6975-6987.
37. C.H. Kua, Y.C. Lam, I. Rodriguez, C. Yang, K. Youcef-Toumi Cell motion model for moving dielectrophoresis, Anal. Chem, 80, 2008, 5454-5461.
38. M.D. Vahey, J. Voldman, High-throughput cell and particle characterization using isodielectric separation, Anal Chem, 81, 2009, 2446-2455.
39. G.H. Markx, P.A. Dyda, R. Pethig, Dielectrophoretic separation of bacteria using a conductivity gradient, J. Biotech., 51/2, 1996, 175-180.
40. S. Masuda, M. Washizu, T Nanba, Novel method of cell fusion in field constriction area in fluid integrated circuit, IEEE Trans. Ind. Applications, 25/4, 1989, 732-737.
41. J. Park, B. Kim, S.K. Choi, S. Hong, S.H. Lee, K-I. Lee, An efficient cell separation system using 3D-asymmetric microelectrodes, Lab Chip 5, 2005, 1264-1270.
42. J. Voldman, M. Toner, M.L. Gray, M.A. Schmidt, Design and analysis of extruded quadrupolar dielectrophoretic traps, J. Electrostatics, 57, 2003, 69-90.
43. B.Y. Park, M.J. Madou, 3-D electrode designs for flow-through dielectrophoretic systems, Electrophoresis, 26, 2005, 3745-3757.
44. Y-K. Cho, T-H. Kim, J-G. Lee, On-chip concentration of bacteria using a 3D dielectrophoretic chip and subsequent laser-based DNA extraction in the same chip, J. Micromech. Microeng, 20, 2010, 065010.
45. C. Iliescu, G. Xu, V. Samper, F.E.H. Tay, Fabrication of a dielectrophoretic chip with 3D silicon electrodes, J. Micromech. Microeng, 15/3, 2005, 494-500.
46. L. Wang, LA. Flanagan, N.L. Jeon, E. Monuki, A.P. Lee, Dielectrophoresis switching with vertical sidewall electrodes for microfluidic flow cytometry, Lab Chip, 7, 2007, 1114-1120.
47. L Wang, J. Lu, S.A. Marchenko, E.S. Monuki, LA. Flanagan, A. P. Lee, Dual frequency dielectrophoresis with interdigitated sidewall electrodes for microfluidic flowthrough separation of beads and cells, Electrophoresis, 30/5, 2009, 782-791.
48. C. Iliescu, LM. Yu, G.L. Xu, F.E.H. Tay, A dielectrophoretic chip with a 3-D electric field gradient, J. Microelectromech. Syst., 15/6, 2006, 1506-1513.
49. Z. Gagnon, J. Mazur, H-C Chang, Glutaraldehyde enhanced dielectrophoretic yeast cell separation, Biomicrofluidics, 3, 2009, 044108.
50. J.E. Gordon, Z. Gagnon, H-C Chang, Dielectrophoretic discrimination of bovine red blood cell starvation age by buffer selection and membrane cross-linking, Biomicrofluidics, 1, 2007, 044102.
51. -F. Cheng, H-C. Chang, D. Hou, H-C Chang, An integrated dielectrophoretic chip for continuous bioparticle filtering, focusing, sorting, trapping, and detecting, Biomicrofluidics, 1, 2007, 021503.
52. J-W. Choi, S. Rosset, M. Niklaus, J.R. Adleman, H. Shea, D. Psaltis, 3-dimensional electrode patterning within a microfluidic channel using metal ion implantation, Lab Chip, 10, 2010, 783-788.
53. Z. Zou, S. Lee, C.H. Ahn, Sensors Journal, IEEE, 8/5, 2008, 527 - 535.
54. L.A. Flanagan, J. Lu, L. Wang, S.A. Marchenko, N.L. Jeon, A.P. Lee, E.S. Monuki, Unique dielectric properties distinguish stem cells and their differentiated progeny, Stem Cells, 26, 2008, 656-665.
55. M. P. Hughes, Strategies for dielectrophoretic separation in laboratory-on-a-chip systems, Electrophoresis, 23, 2002, 2569-2582.
56. P.R.C. Gascoyne, J. Vykoukal, Particle separation by dielectrophoresis, Electrophoresis, 23, 2002, 1973-1983.
57. J. Yang, Y. Huang, X-B Wang, F.F. Becker, P.R.C. Gascoyne, Cell separation on microfabricated electrodes using dielectrcphoretic/gravitational field-flow fractionation, Anal. Chem., 71, 1999, 911-918.
58. C. Iliescu, G. Tresset, G. Xu, Continuous field-flow separation of particle populations in a dielectrophoretic chip with three dimensional electrodes, Appl. Phys. Lett., 90/23, 2007, 234104.
59. F. Yang, X. Yang, H. Jiang, P. Bulkhaults, P. Wood, W. Hrushesky, G. Wang, Dielectrophoretic separation of colorectal cancer cells, Biomicrofluidics 4, 2010, 013204.
60. A. Valero, T Braschler, N. Demierre, P. Renaud, A miniaturized continuous dielectrophoretic cell sorter and its applications, Biomicrofluidics, 4, 2010, 022807.
61. G.H. Markx, R. Pethig, J. Rousselet, The dielectrophoretic levitation of latex beads, with reference to field-flow fractionation, J. Phys. D: Appl. Phys., 30, 1997, 2470.
62. K. Zhu, A. S. Kaprelyants, E.G. Salina, G.H. Markx, Separation by dielectrophoresis of dormant and nondormant bacterial cells of Mycobacterium smegmatis, Biomicrofluidics, 4, 2010, 022809.
63. M.P. Hughes, R. Pethig, X.B. Wang, Dielectrophoretic forces on particles in travelling electric fields, J. Phys. D: Appl. Phys., 29, 1996, 474.
64. P. Gascoyne, C. Mahidol, M. Ruchirawat, J. Satayavivad, P. Watcharasit, F.F. Becker, Microsample preparation by dielectrophoresis: isolation of malaria, Lab Chip, 2, 2002, 70-75.
65. C. Church, J. Zhu, G.Huang, T-R Tzeng, X. Xuan, Integrated electrical concentration and lysis of cells in a microfluidic chip, Biomicrofluidics, 4, 2010, 044101.
66. H. Lu, M. A. Schmidt, K.F. Jensen, A microfluidic electroporation device for cell lysis, Lab Chip, 5, 2005, 23-29.
67. S.W. Lee, Y.C. Tai, A micro cell lysis device, Sens. Actuators A, 73, 1999, 74-79.
68. Q. Ramadan, V. Samper, D. Poenar, Z. Liang, C. Yu, TM. Lim, Simultaneous cell lysis and bead trapping in a continuous flow microfluidic device, Sens. Actuators B, 113/2, 2006, 944-955.
69. C.-T. Ho, R-Z. Un, W-Y Chang, H-Y Chang, C-H. Uu, Rapid heterogeneous liver-cell on-chip patterning via the enhanced fieldinduced dielectrophoresis trap, Lab Chip, 6, 2006, 724-734.
70. A. Rosenthal, J. Voldman, Dielectrophoretic traps for single-particle patterning, Bioph. J., 88/3, 2005, 2193-2205.
71. M. Suzuki, T. Yasukawa, H. Shiku, T. Matsue, Negative dielectrophoretic patterning with different cell types, Biosens. Bioelectr., 24, 2008, 1043-1047.
72. N. Mittal, A. Rosenthal, J. Voldman, nDEP microwells for singlecell patterning in physiological media, Lab Chip, 7, 2007, 1146-1153.
73. R.S. Thomas, H. Morgan, N.G. Green, Negative DEP traps for single cell immobilisation, Lab Chip, 9, 2009, 1534-1540.
74. F.E.H. Tay, L Yu, C. Iliescu, Electrical and thermal characterization of a dielectrophoretic chip with 3D electrodes for cells manipulation, Electroch. Acta, 52/8, 2007, 2862-2868.
75. L. Yu, C. Iliescu, G. Xu, F.E.H. Tay, Sequential field-flow cell separation method in a dielectrophoretic chip with 3D electrodes, J. Microelectromech. Syst., 16/5, 2007, 1120-1129.
76. G. Tresset, C. Iliescu, Electrical control of loaded biomimetic femtoliter vesicles in microfluidic system, Appl. Phys. Lett., 90/ 17, 2007, 173901.
77. C. Iliescu, L. Yu, F. Tay, B. Chen, Bidirectional field flow particle separation method in a dielectrophoretic chip with 3D electrodes, Sens. Actuators B, 129/1, 2008, 491-496.
78. C. Iliescu, G. Tresset, G. Xu, Dielectrophoretic field-flow method for separating particle populations in a chip with asymmetric electrodes, Biomicrofluidics, 3, 2009, 044104.