Experimental and numerical study of the effect of the channel curvature angle on inertial focusing in curvilinear microchannels

Abstract: Passive cell separation methods have attracted great attention due to their superiority over the other methods stemming from their easy fabrication, precise manipulation, cost-effectiveness, sensitivity, and simplicity. The fluid inertia in these methods is the main factor that is affected by the channel design; thus, the channel design parameters should be chosen accordingly. Even though all channel design parameters are well addressed in inertial microfluidics, the curvature angle of the channel has not yet … Show more

“…One of the most promising microfluidic-based passive cell separation techniques is called inertial focusing [32][33][34]. In this method, cells are separated based on their size and shape as they flow through microchannels under the influence of fluid forces [35]. This technique is particularly useful for applications such as cell-based assays and clinical diagnostics, where high purity and efficiency are essential.…”

A Low-Cost Laser-Prototyped Microfluidic Device for Separating Cells and Bacteria

“…One of the most promising microfluidic-based passive cell separation techniques is called inertial focusing [32][33][34]. In this method, cells are separated based on their size and shape as they flow through microchannels under the influence of fluid forces [35]. This technique is particularly useful for applications such as cell-based assays and clinical diagnostics, where high purity and efficiency are essential.…”

A Low-Cost Laser-Prototyped Microfluidic Device for Separating Cells and Bacteria

Optimizing the design of a serpentine microchannel based on particles focusing and separation: A numerical study with experimental validation

Multiphysics of microfluidics and nanofluidics