2024
DOI: 10.1038/s41598-024-64330-y
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Enhanced microfluidic multi-target separation by positive and negative magnetophoresis

Saud Khashan,
Abdulkarem A. Odhah,
Marwan Taha
et al.

Abstract: We introduce magnetophoresis-based microfluidics for sorting biological targets using positive Magnetophoresis (pM) for magnetically labeled particles and negative Magnetophoresis (nM) for label-free particles. A single, externally magnetized ferromagnetic wire induces repulsive forces and is positioned across the focused sample flow near the main channel's closed end. We analyze magnetic attributes and separation performance under two transverse dual-mode magnetic configurations, examining magnetic fields, hy… Show more

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Cited by 3 publications
(1 citation statement)
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“…However, the magnetic separation process may result in the loss of the target molecules. 42 Therefore, particularly for low-concentration target detection, careful attention to the operation and concentration control of the magnetic beads are required. Nanomaterials have been combined with novel microfluidic chips to overcome challenges associated with exosome isolation.…”
Section: Optical Nanobiosensors Applied In Liquid Biopsymentioning
confidence: 99%
“…However, the magnetic separation process may result in the loss of the target molecules. 42 Therefore, particularly for low-concentration target detection, careful attention to the operation and concentration control of the magnetic beads are required. Nanomaterials have been combined with novel microfluidic chips to overcome challenges associated with exosome isolation.…”
Section: Optical Nanobiosensors Applied In Liquid Biopsymentioning
confidence: 99%