Capillary open microsystems are attractive and increasingly used in biotechnology, biology, and diagnostics as they allow simple and reliable control of fluid flows. In contrast to closed microfluidic systems, however, two-phase capillary flows in open microfluidics have remained largely unexplored. In this work, we present the theoretical basis and experimental demonstration of a spontaneous capillary flow (SCF) of two-phase systems in open microchannels. Analytical results show that an immiscible plug placed in an open channel can never stop the SCF of a fluid in a uniform cross-section microchannel. Numerical investigations of the morphologies of immiscible plugs in a capillary flow reveal three different possible behaviors. Finally, the...
International audienceThis contribution explores a droplet actuation mechanism which involves mixing...
Liquid control in microchannels is quite important in microfluidic devices used in, for example, lab...
We report an easily-established capillary-based open microfluidic device (COMD) as a simple and robu...
Capillary open microsystems are attractive and increasingly used in biotechnology, biology, and diag...
Thesis (Ph.D.)--University of Washington, 2021This dissertation discusses advancements in open chann...
This thesis provides experimental data and theoretical analysis on two-phase flow in devices with di...
This thesis provides experimental data and theoretical analysis on two-phase flow in devices with di...
ABSTRACT: This Article describes the use of capillary pressure to initiate and control the rate of s...
This Article describes the use of capillary pressure to initiate and control the rate of spontaneous...
We investigate two-phase (oil and water) flow in head-on microfluidic devices, which consist of two ...
This Article describes the use of capillary pressure to initiate and control the rate of spontaneous...
Multiphase microfluidics offers a great number of opportunities in different applications ranging fr...
Micro droplet formation is considered as a growing emerging area of research due to its wide-range a...
Microfluidics is attractive in many aspects and advancement of technology on these micron-scales hav...
International audienceThis contribution explores a droplet actuation mechanism which involves mixing...
Liquid control in microchannels is quite important in microfluidic devices used in, for example, lab...
We report an easily-established capillary-based open microfluidic device (COMD) as a simple and robu...
Capillary open microsystems are attractive and increasingly used in biotechnology, biology, and diag...
Thesis (Ph.D.)--University of Washington, 2021This dissertation discusses advancements in open chann...
This thesis provides experimental data and theoretical analysis on two-phase flow in devices with di...
This thesis provides experimental data and theoretical analysis on two-phase flow in devices with di...
ABSTRACT: This Article describes the use of capillary pressure to initiate and control the rate of s...
This Article describes the use of capillary pressure to initiate and control the rate of spontaneous...
We investigate two-phase (oil and water) flow in head-on microfluidic devices, which consist of two ...
This Article describes the use of capillary pressure to initiate and control the rate of spontaneous...
Multiphase microfluidics offers a great number of opportunities in different applications ranging fr...
Micro droplet formation is considered as a growing emerging area of research due to its wide-range a...
Microfluidics is attractive in many aspects and advancement of technology on these micron-scales hav...
International audienceThis contribution explores a droplet actuation mechanism which involves mixing...
Liquid control in microchannels is quite important in microfluidic devices used in, for example, lab...
We report an easily-established capillary-based open microfluidic device (COMD) as a simple and robu...