Recent progress in the physics of microfluidics and related biotechnological applications

Current Opinion in Biotechnology

Volumn 25, Issue , 2014, Pages 129-134

  Tabeling, Patrick ^a  

^a PSL RESEARCH UNIVERSITY   (France)

Author keywords

[No Author keywords available]

Indexed keywords

BIOTECHNOLOGICAL APPLICATIONS; DISORDERED SUBSTRATES; MICROFLUIDIC FLOW; MODERATE REYNOLDS NUMBERS; PAPER-BASED MICROFLUIDICS; RECENT PROGRESS;

BIOTECHNOLOGY; INTERFACES (MATERIALS); REYNOLDS NUMBER;

MICROFLUIDICS;

BIOPHYSICS; BIOTECHNOLOGICAL PROCEDURES; DROPLET BASED MICROFLUIDICS; EMULSION; FLOW KINETICS; HYDRODYNAMICS; HYDROPHOBICITY; INERTIAL MICROFLUIDICS; MICROFLUIDIC ANALYSIS; MICROFLUIDICS; PAPER BASED MICROFLUIDICS; PRIORITY JOURNAL; REVIEW;

BIOTECHNOLOGY; HUMANS; HYDRODYNAMICS; MICROFLUIDIC ANALYTICAL TECHNIQUES; MICROFLUIDICS; PHYSICS;

EID: 84891323701     PISSN: 09581669     EISSN: 18790429     Source Type: Journal    
DOI: 10.1016/j.copbio.2013.11.009     Document Type: Review

References (65)

1. Ho C.M., Tai Y. Annu Rev Fluid Mech 1998, 30:579.
2. Gad-El-Hak M. J Fluids Eng 1999, 121:5.
3. Beebe D.J., Mensing G.A., Walker G.M. Annu Rev Biomed Eng 2002, 4:261.
4. Stone H.A., Stroock A.D., Ajdari A. Annu Rev Fluid Mech 2004, 36:381-411.
5. Squires T.M., Quake S.R. Rev Mod Phys 2005, 77:977-1026.
6. Whitesides G. The origin and future of microfluidics. Nature 2006, 442:368-373.
7. Nguyen N.T., Wereley S.T. Fundamentals and Applications of Microfluidics 2002.
8. Karniadakis G., Beskok A. Micro Flows 2002, Springer Verlag.
9. Tabeling P. An Introduction to Microfluidics 2005, Oxford University Press.
10. Bruus H. Theoretical Microfluidics 2007, Oxford University Press.
11. Kirby B. Micro- and Nanoscale Fluid Mechanics 2013, Cambridge University Press.
12. Siria A., Poncharal P., Biance A.-L., Fulcrand R., Blase X., Purcell S., Bocquet L. Giant energy conversion measured in a single transmembrane boron-nitride nanotube. Nature 2013, 494:455-458.
13. Tropmann A., Tanguy L., Koltay P., Zengerle R., Riegger L. Completely superhydrophobic PDMS surfaces for microfluidics. Langmuir 2012, 28:8292-8295.
14. Xing S., Jiang J., Pan T. Interfacial microfluidic transport on micropatterned superhydrophobic textile. Lab Chip 2013, 13:1937.
15. Yu Z., Wang C.-F., Ling L., Chen L., Chen S. Triphase microfluidic-directed self-assembly: anisotropic colloidal photonic crystal supraparticles and multicolor patterns made easy. Angew Chem Int Ed Engl 2012, 51:2375-2378.
16. Stan C.A., Tang S.K.Y., Bishop J.M., Whitesides G.M. Externally applied electric fields up to 160kV/m do not affect the homogeneous nucleation of ice in supercooled water. J Phys Chem 2011, 8:1089-1097.
17. Thorsen T., Roberts R., Arnold F., Quake S. Phys Rev Lett 2001, 86:4163.
18. Anna S., Bontoux N., Stone H. Appl Phys Lett 2003, 82:364.
19. Song H., Chen D., Ismagilov R. Angew Chem Int Ed Engl 2006, 13:447336.
20. Dreyfus R., Tabeling P., Willaime H. Phys Rev Lett 2003, 90:14.
21. Garstecki P., Gitlin I., DiLuzio W., Whitesides G., Kumacheva E., Stone H. Appl Phys Lett 2004, 85:2649.
22. Link D., Anna S., Weitz D., Stone H. Phys Rev Lett 2004, 92:053403.
23. Seemann R., Brinkmann M., Pfohl T., Herminghaus S. Droplet based microfluidics. Rep Prog Phys 2012, 75:016601.
24. Tabeling P. Lab Chip 2013, 9:2428-2436.
25. Baroud C.N., Gallaire F., Dangla R. Critical review: dynamics of microfluidic droplets. Lab Chip 2010, 10:2032-2045.
26. Eggers J. Nonlinear dynamics and breakup of free surface flows. Rev Mod Phys 1997, 69:865.
27. Wong H., Radke C.J., Morris S. J Fluid Mech 1995, 292:71-94.
28. Leshansky A.M., Pismen: P.M. Breakup of drops in a microfluidic T junction. Phys. Fluids 2009, 21:023303.
29. Jullien M.-C., Tsang Mui Ching M.-J., Cohen C., Ménétrier L., Tabeling: P. Droplet breakup in microfluidic T-junctions at small capillary numbers. Phys. Fluids 2009, 21:72001.
30. Leshansky A.M., Afkhami S., Jullien M.-C., Tabeling P. Obstructed breakup of slender drops in a microfluidic T-junction. Phys Rev Lett 2012, 108:264502.
31. Malloggi F., Pannacci N., Attia R., Monti F., Mary P., Willaime H., Tabeling P.B. Monodisperse colloids synthesized with nanofluidic technology. Langmuir 2013, 26:2369-2373.
32. Couture O., Urban A., Bretagne A., Martinez L., Tanter M., Tabeling P. In vivo targeted delivery of large payloads with an ultrasound clinical scanner. Med Phys 2012, 39:5229.
33. Leman M., Griffiths A., Tabeling P. Manipulating micrometric droplets. Proc. μTAS 2013.
34. Verneuil E., Cordero M.L., Gallaire F., Baroud C.N. Laser-induced force on a microfluidic drop: origin and magnitude. Langmuir 2009, 2AA5:5127-5134.
35. Marques A.V., Barbaud F., Baigl D. Microfluidic mixing triggered by an external LED illumination. J Am Chem Soc 2013, 135:3218-3223.
36. Micralles V., Huerre A., Malloggi F., Jullien M.C. A review of heating and temperature control in microfluidic systems: techniques and applications. Diagnostics 2013, 3:33-67.
37. Selva B., Cantat I., Jullien M.-C. Temperature-induced migration of a bubble in a soft microcavity. Phys Fluids 2011, 23:052002.
38. Abbyad P., Dangla R., Alexandrou A., Baroud C.N. Rail and anchors: guiding and trapping droplet microreactors in two dimensions. Lab Chip 2011, 11:813-821.
39. Dangla R., Cagri Kayi S., Baroud C. Proc Natl Acad Sci U S A 2013, 110:853-858.
40. Beatus T., Bar-Ziv R.H., Tlusty T. The physics of 2D microfluidic ensembles. Phys Rep 2012, 516:103-145.
41. Beatus T., Tlusty T., Bar-Ziv R. Phonons in a one-dimensional microfluidic crystal. Nat Phys 2006, 2:743-748.
42. Beatus T., Tlusty T., Bar-Ziv R. Burgers shock waves and sound in a 2D microfluidic droplets ensemble. Phys Rev Lett 2009, 103:114502.
43. Champagne N., Vasseur R., Montourcy A., Bartolo D. Traffic jams and intermittent flows in microfluidic networks. Phys Rev Lett 2010, 105:044502.
44. Baret J.C. Surfactants in droplet-based microfluidics. Lab Chip 2012, 12:422.
45. Skhiri Y., Gruner P., Semin B., Brosseau Q., Pekin D., Mazutis L., Goust V., Kleinschmidt F., Abdeslam El Harrak A., Brian Hutchison J., Mayot E., Bartolo J.-F., Griffiths A.D., Taly V., Baret J.-C. Dynamics of molecular transport by surfactants in emulsions. Soft Matter 2012, 8:10618-10627.
46. Zhao C.-X. Multiphase flow microfluidics for the production of single or multiple emulsions for drug delivery. Adv Drug Deliv Rev 2013, 65:1420-1446.
47. Di Carlo D. Inertial microfluidics. Lab Chip 2009, 9:3038-3046.
48. Segré G., Silberberg A. Behaviour of macroscopic rigid spheres in Poiseuille flow. Part 1. J Fluid Mech 1962, 14:115-135.
49. Segré G., Silberberg A. Behaviour of macroscopic rigid spheres in Poiseuille flow. Part 2. Experimental results and interpretation. J Fluid Mech 1962, 14:136-157.
50. Di Carlo D., Irimia I., Tompkins R.G., Toner M. Continuous inertial focusing, ordering and separation of particles in microchannels. Proc Natl Acad Sci U S A 2007, 104:18892-18897.
51. Lee W., Amini H., Stone H.A., Di Carlo D. Dynamic self assembly and control of microfluidic particle crystals. Proc Natl Acad Sci U S A 2010, 107:22413-22418.
52. Humphry K.J., Kulkarni P.M., Weitz D.A., Morris J.F., Stone H.A. Axial and lateral particle ordering in finite Reynolds number channel flows. Phys Fluids 2010, 22:081703.
53. Chong K., Kelly S.D., Smith S., Eldredge J.D. Inertial particle trapping in viscous streaming. Phys Fluids 2013, 25:033602.
54. Edd J.F., Di Carlo D., Humphry K.J., Köster S., Irimia D., Weitz D.A., Toner M. Controlled encapsulation of single-cells into monodisperse picolitre drops. Lab Chip 2008, 8:1262-1264.
55. Di Carlo D., Edd J., Irimia D., Tompkins R., Toner M. Equilibrium separation and filtration of particles using differential inertial focusing. Anal Chem 2008, 80:2204-2211.
56. Bhagat A.A., Hou H.W., Li L.D., Lim C.T., Han J. Pinched flow coupled shear-modulated inertial microfluidics for high-throughput rare blood cell separation. Lab Chip 2011, 11:1870-1878.
57. Masaeli M., Sollier E., Amini H., Mao W., Camacho K., Doshi N., Mitragotri S., Alexeev A., Di Carlo D. Continuous inertial focusing and separation of particles by shape. Phys Rev X 2012, 2:031017.
58. Amini H., Sollier E., Masaeli M., Sien Y., Ganapathysubramanian B., Stone H., Di Carlo D. Engineering fluid flow using sequenced microstructures. Nat Commun 2013, 4:1826.
59. Carrilho E., Phillips S.T., Vella S.J., Martinez A.W., Whitesides G.M. Paper microzone plates. Anal Chem 2009, 81:5990-5998.
60. Carrilho E., Martinez A.W., Whitesides G.M. Understanding wax printing: a simple micropatterning process for paper-based microfluidics. Anal Chem 2009, 81:7091-7095.
61. Martinez A.W., Phillips S.T., Whitesides G.M., Carrilho E. Diagnostics for the developing world: microfluidic paper-based analytical devices. Anal Chem 2010, 82:3-10.
62. Alava M., Niskanen K. The physics of paper. Rep Prog Phys 2006, 69:669.
63. Fujita H. On the distribution of liquid ascending in a filter paper. J Phys Chem 1952, 56:525.
64. Osborn J.L., Lutz B., Fu E., Kauffman P., Stevens D.Y., Yager P. Microfluidics without pumps: reinventing the T-sensor and H-filter in paper networks. Lab Chip 2010, 10:2659-2665.
65. Fu E., Ramsey S.A., Kauffman P., Lutz B., Yager P. Transport in two-dimensional paper networks. Microfluid Nanofluid 2011, 10:29-35.