| Autor: |
Reynoso-Hernández KB; CINVESTAV-Monterrey, PIIT, Nuevo León, 66600, México., Guevara-Pantoja PE; CINVESTAV-Monterrey, PIIT, Nuevo León, 66600, México., Caballero-Robledo GA; CINVESTAV-Monterrey, PIIT, Nuevo León, 66600, México. |
| Jazyk: |
angličtina |
| Zdroj: |
Physical review. E [Phys Rev E] 2021 Aug; Vol. 104 (2-1), pp. 024603. |
| DOI: |
10.1103/PhysRevE.104.024603 |
| Abstrakt: |
When a magnetic nanoparticle solution flows through a porous medium formed by iron microparticles packed in a microfluidic channel, the nanoparticles get trapped within the column in the presence of a magnet. A complex interplay between magnetic and fluid forces within the magnetized porous medium governs the trapping of nanoparticles. However, how does the packing state of the microparticles affect the trapping of nanoparticles? Will more nanoparticles be trapped on a loose or a tight packing? In this work, we present experiments that show that the capture of nanoparticles is determined by the total volume occupied by the column, independent of its packing density. We present a simple analytical model based on the competition of drag and magnetic forces that shows that our system can be useful to develop and test more complete and accurate models. We also developed a technique to measure the columns' minute mass and its packing density, which consists of injecting polydimethylsiloxane into the acrylic microfluidic device. Our work can help with the optimization of environmental and biomedical applications based on high-gradient magnetic nanoparticle separation. |
| Databáze: |
MEDLINE |
| Externí odkaz: |
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