Superparamagnetic particle dynamics and mixing in a rotating capillary tube with a stationary magnetic field
The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was co...
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| Published in | Microfluidics and nanofluidics Vol. 13; no. 3; pp. 461 - 468 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer-Verlag
01.09.2012
Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1613-4982 1613-4990 |
| DOI | 10.1007/s10404-012-0981-z |
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| Abstract | The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length was investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason number below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction. |
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| AbstractList | The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length was investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason number below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction. The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length was investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason number below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction.[PUBLICATION ABSTRACT] The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length were investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed ; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction. The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length were investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed ; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction.The dynamics of superparamagnetic particles subject to competing magnetic and viscous drag forces have been examined with a uniform, stationary, external magnetic field. In this approach, competing drag and magnetic forces were created in a fluid suspension of superparamagnetic particles that was confined in a capillary tube; competing viscous drag and magnetic forces were established by rotating the tube. A critical Mason number was determined for conditions under which the rotation of the capillary prevents the formation of chains from individual particles. The statistics of chain length were investigated by image analysis while varying parameters such as the rotation speed and the viscosity of the liquid. The measurements showed that the rate of particle chain formation was decreased with increased viscosity and rotation speed ; the particle dynamics could be quantified by the same dimensionless Mason number that has been demonstrated for rotating magnetic fields. The potential for enhancement of mixing in a bioassay was assessed using a fast chemical reaction that was diffusion-limited. Reducing the Mason below the critical value, so that chains were formed in the fluid, gave rise to a modest improvement in the time to completion of the reaction. |
| Author | Abid, Aamir Cheung, Ka Ho Kennedy, Ian M. Sudheendra, L. Lee, Jun-Tae |
| Author_xml | – sequence: 1 givenname: Jun-Tae surname: Lee fullname: Lee, Jun-Tae organization: Department of Mechanical and Aerospace Engineering, University of California Davis – sequence: 2 givenname: Aamir surname: Abid fullname: Abid, Aamir organization: Department of Mechanical and Aerospace Engineering, University of California Davis – sequence: 3 givenname: Ka Ho surname: Cheung fullname: Cheung, Ka Ho organization: Department of Mechanical and Aerospace Engineering, University of California Davis – sequence: 4 givenname: L. surname: Sudheendra fullname: Sudheendra, L. organization: Department of Mechanical and Aerospace Engineering, University of California Davis – sequence: 5 givenname: Ian M. surname: Kennedy fullname: Kennedy, Ian M. email: imkennedy@ucdavis.edu organization: Department of Mechanical and Aerospace Engineering, University of California Davis |
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| CitedBy_id | crossref_primary_10_1039_C3LC51454D crossref_primary_10_1103_PhysRevE_106_034606 crossref_primary_10_1038_srep34193 crossref_primary_10_1007_s10404_017_1955_y crossref_primary_10_1039_C4LC01198H crossref_primary_10_1186_s40486_018_0065_2 crossref_primary_10_2217_nnm_2021_0007 crossref_primary_10_1007_s10404_014_1526_4 crossref_primary_10_1007_s10404_013_1209_6 |
| Cites_doi | 10.1016/j.jcis.2004.08.119 10.1103/PhysRevE.76.066303 10.1021/ac026267t 10.1021/ac010895d 10.1021/ac0494580 10.1016/j.bios.2009.09.009 10.1073/pnas.0607254104 10.1063/1.1570817 10.1007/s10404-007-0214-z 10.1021/bi970595j 10.1007/s10404-009-0504-8 10.1063/1.3072592 10.1049/iet-nbt:20070029 10.1109/JMEMS.2010.2050194 10.1039/b502225h 10.1063/1.469278 10.1016/j.ab.2008.12.003 10.1002/elps.200410222 10.1103/PhysRevE.61.4111 10.1039/b906569p 10.1007/s00348-008-0541-1 10.1063/1.1572873 10.1016/j.jmmm.2008.05.036 10.1007/s10404-006-0112-9 10.1063/1.2709514 10.1103/PhysRevE.69.041406 10.1063/1.2834851 |
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| Keywords | Magnetic particles Mason number Rotating capillary Particle chains Mixing Superparamagnetism Particle suspension Experimental study Capillary tube Rotating pipe Biosensors Magnetic fields Microstructure Microfluidics |
| Language | English |
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| SubjectTerms | Analytical Chemistry Applied fluid mechanics Bioassays Biological and medical sciences Biomedical Engineering and Bioengineering Biosensors Biotechnology Chemical reactions Condensed matter: electronic structure, electrical, magnetic, and optical properties Diamagnetism, paramagnetism and superparamagnetism Dynamics Engineering Engineering Fluid Dynamics Exact sciences and technology Fluid dynamics Fluid flow Fluidics Fundamental and applied biological sciences. Psychology Fundamental areas of phenomenology (including applications) Magnetic fields Magnetic properties and materials Methods. Procedures. Technologies Nanostructure Nanotechnology and Microengineering Physics Research Paper Rotating Various methods and equipments Viscosity Viscous drag |
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| Title | Superparamagnetic particle dynamics and mixing in a rotating capillary tube with a stationary magnetic field |
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