Deformability-selective particle entrainment and separation in a rectangular microchannel using medium viscoelasticityElectronic supplementary information (ESI) available. See DOI: 10.1039/c2sm07469a

We report a new phenomenon that particles are selectively entrained along the corners of a straight rectangular microchannel according to their deformabilities under viscoelastic flows of a polymer solution. The mechanism behind this phenomenon is elucidated by the competition between the wall lift...

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Main Authors: Yang, Seungyoung, Lee, Sung Sik, Ahn, Sung Won, Kang, Kyowon, Shim, Wooyoung, Lee, Gwang, Hyun, Kyu, Kim, Ju Min
Format: Article
Language:English
Online Access:Get full text
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Summary:We report a new phenomenon that particles are selectively entrained along the corners of a straight rectangular microchannel according to their deformabilities under viscoelastic flows of a polymer solution. The mechanism behind this phenomenon is elucidated by the competition between the wall lift force induced by the particle deformability and the elastic force of the medium at the corners. On the basis of these findings, we devise a novel label-free deformability-selective cell-separation method, which achieves the high-purity separation of rigid particles and rigidified red blood cells (RBCs) from fresh RBCs in a single step, without any active components such as an electric force or sophisticated channel design. Furthermore, our novel method can be used directly to isolate white blood cells (WBCs) from diluted whole blood with a high enrichment ratio (>300) by utilizing difference in cell deformability. We report a novel method of deformability-selective particle entrainment and sorting in a rectangular microchannel using medium viscoelasticity.
ISSN:1744-683X
1744-6848
DOI:10.1039/c2sm07469a