Encapsulated Cell Dynamics in Droplet Microfluidic Devices with Sheath Flow

Abstract: In this paper we study the dynamics of single cells encapsulated in water-in-oil emulsions in a microchannel. The flow field of a microfluidic channel is coupled to the internal flow field of a droplet through viscous traction at the interface, resulting in a rotational flow field inside the droplet. An encapsulated single cell being subjected to this flow field responds by undergoing multiple orbits, spins, and deformations that depend on its physical properties. Monitoring the cell dynamics, using a high-spe… Show more

“…To achieve particle focusing in the sample stream, an additional sheath flow is usually used to squeeze the sample stream, i.e. a sheath flow is arranged on each side of the particle stream [24,25]. The more the number of sheath flows, the more complex the system operation.…”

High throughput particle sorting based on traveling surface acoustic wave (TSAW) is realized by coupling spiral microchannel and a novel arc electrode

“…To achieve particle focusing in the sample stream, an additional sheath flow is usually used to squeeze the sample stream, i.e. a sheath flow is arranged on each side of the particle stream [24,25]. The more the number of sheath flows, the more complex the system operation.…”

High throughput particle sorting based on traveling surface acoustic wave (TSAW) is realized by coupling spiral microchannel and a novel arc electrode