Micro magnetofluidics : interactions between magnetism and fluid flow on the microscale
Micro-magnetofluidics refers to the science and technology that combines magnetism with microfluidics to gain new functionalities. Magnetism has been used for actuation, manipulation and detection in microfluidics. In turn, microfluidic phenomena can be used for making tu...
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| Format: | Article |
| Language: | English |
| Published: |
2012
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10356/98122 http://hdl.handle.net/10220/7689 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Micro-magnetofluidics refers to the science and
technology that combines magnetism with microfluidics to
gain new functionalities. Magnetism has been used for
actuation, manipulation and detection in microfluidics. In
turn, microfluidic phenomena can be used for making tunable
magnetic devices. This paper presents a systematic
review on the interactions between magnetism and fluid flow
on the microscale. The review rather focuses on physical and
engineering aspects of micro-magnetofluidics, than on the
biological applications which have been addressed in a
number of previous excellent reviews. The field of micromagnetofluidics
can be categorized according to the type of
the working fluids and the associated microscale phenomena
of established research fields such as magnetohydrodynamics,
ferrohydrodynamics, magnetorheology and magnetophoresis.
Furthermore, similar to microfluidics the field can
also be categorized as continuous and digital micro-magnetofluidics.
Starting with the analysis of possible magnetic
forces in microscale and the impact of miniaturization on
these forces, the paper revisits the use of magnetism for
controlling fluidic functions such as pumping, mixing,
magnetowetting as well as magnetic manipulation of particles.
Based on the observations made with the state of the art
of the field micro-magnetofluidics, the paper presents some
perspectives on the possible future development of this field.
While the use of magnetism in microfluidics is relatively
established, possible new phenomena and applications can
be explored by utilizing flow of magnetic and electrically
conducting fluids. |
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