Liquid–liquid droplet reactors have garnered significant interest in biochemical applications
with the obvious benefits of reduced reagent consumption, well controlled droplet size and …

The integration of on‐chip biophysical cytometry downstream of microfluidic enrichment for
inline monitoring of phenotypic and separation metrics at single‐cell sensitivity can allow for …

This study develops a technique to control the timing, spacing (interval), and velocity of
particles in a microchannel flow by periodically exerting forces on the particles over space …

We developed a technique which can increase the yield of one-to-one particle
encapsulation by applying the dielectrophoretic particle alignment technique using boxcar …

The flow and thermal characteristics of the Marangoni convection (thermocapillary flow)
around a microbubble are described in this study for the case in which a bubble is attached …

Controlling the position of the particles, the interval (space) between the particles, and the
timing when they pass the specific location in the microchannel is an important technique to …

Particle encapsulation using microfluidics technology is effective for application of synthesis,
single cell analysis, and drug discovery. However, if the particles are supplied randomly to …

Controlling the timing, interval (spacing), and velocity of the particles and cells in
microchannel flows has been an important issue to develop a high-throughput system in …

抄録 We have developed a technique which can control the particle interval (spacing),
velocity and timing in microchannel flow by exerting dielectrophoretic (DEP) force on the …

抄録 We developed a technique which can increase the yield of one-to-one particle
encapsulation by applying the dielectrophoretic particle alignment technique using boxcar …