1 Xu, J. H., "Shear force induced monodisperse droplet formation in a microuidic device by controlling wetting properties" 6 : 131-136, 2006
2 Zheng, B., "Screening of protein crystallization conditions on a microuidic chip using nanoliter-size droplets" 125 : 11170-11171, 2003
3 Lee, W., "Role of geometry and uid properties in droplet and thread formation processes in planar ow focusing" 21 : 032103-, 2009
4 Armani, D., "Re-configurable fluid circuits by PDMS elastomer micromachining" 222-227, 1999
5 Duffy, D. C., "Rapid prototyping of microfluidic systems in poly(dimethylsiloxane)" 70 : 4974-4984, 1998
6 Dreyfus, R., "Ordered and disordered patterns in two-phase flows in microchannels" 90 : 144505-, 2003
7 Dussan, E.B., "On the spreading of liquids on solid surfaces:static and dynamic contact angles" 11 : 371-400, 1979
8 Extrand, C.W., "Model for contact angles and hysteresis on rough and ultraphobic surfaces" 18 : 7991-7999, 2002
9 Sia, S. K., "Microuidic devices fabricated in poly(dimethylsiloxane) for biological studies" 24 : 3563-3576, 2003
10 Theberge, A.B., "Microdroplets in microuidics:an evolving platform for discoveries in chemistry and biology" 49 : 5846-5868, 2010
1 Xu, J. H., "Shear force induced monodisperse droplet formation in a microuidic device by controlling wetting properties" 6 : 131-136, 2006
2 Zheng, B., "Screening of protein crystallization conditions on a microuidic chip using nanoliter-size droplets" 125 : 11170-11171, 2003
3 Lee, W., "Role of geometry and uid properties in droplet and thread formation processes in planar ow focusing" 21 : 032103-, 2009
4 Armani, D., "Re-configurable fluid circuits by PDMS elastomer micromachining" 222-227, 1999
5 Duffy, D. C., "Rapid prototyping of microfluidic systems in poly(dimethylsiloxane)" 70 : 4974-4984, 1998
6 Dreyfus, R., "Ordered and disordered patterns in two-phase flows in microchannels" 90 : 144505-, 2003
7 Dussan, E.B., "On the spreading of liquids on solid surfaces:static and dynamic contact angles" 11 : 371-400, 1979
8 Extrand, C.W., "Model for contact angles and hysteresis on rough and ultraphobic surfaces" 18 : 7991-7999, 2002
9 Sia, S. K., "Microuidic devices fabricated in poly(dimethylsiloxane) for biological studies" 24 : 3563-3576, 2003
10 Theberge, A.B., "Microdroplets in microuidics:an evolving platform for discoveries in chemistry and biology" 49 : 5846-5868, 2010
11 Van der Graaf, S., "Lattice Boltzmann simulations of droplet formation in a T-shaped microchannel" 22 : 4144-4152, 2006
12 Bashir, S., "Investigation of pressure profile evolution during confined microdroplet formation using a two-phase level set method" 60 : 40-49, 2014
13 Garstecki, P., "Formation of droplets and bubbles in a microuidic T-junction scaling and mechanism of break-up and mechanism of break-up" 6 : 437-446, 2006
14 McDonald, J. C., "Fabrication of microuidic systems in poly(dimethylsiloxane)" 21 : 27-40, 2000
15 Baroud, C. N., "Dynamics of microuidic droplets" 10 : 2032-2045, 2010
16 Thorsen, T., "Dynamic pattern formation in a vesicle-generating microuidic device" 86 : 4163-4166, 2001
17 Solvas, X. C. I., "Droplet microuidics:recent developments and future applications" 47 : 1936-1942, 2011
18 Nisisako, T., "Droplet formation in a microchannel network" 2 : 24-26, 2002
19 Xu, J. H., "Controllable preparation of monodisperse O/W and W/O emulsions in the same microuidic device" 22 : 7943-7946, 2006
20 Skurtys, O., "Applications of microuidic devices in food engineering" 3 : 115-, 2008
21 Boonme, P., "Applications of microemulsions" 6 : 223-228, 2007
22 Dorrer, C., "Advancing and receding motion of droplets on ultrahydrophobic post surfaces" 22 : 7652-7657, 2006