Periodically textured microfluidic channel walls induce robust centerline alignment of elongated microparticles via repeated reorientations from spatially modulated shear gradients.
Cell-free layer de- velopment and spatial organization of healthy and rigid red blood cells in a microfluidic bifurcation
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Geometry-Driven Segregation in Periodically Textured Microfluidic Channels
Periodically textured microfluidic channel walls induce robust centerline alignment of elongated microparticles via repeated reorientations from spatially modulated shear gradients.