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Article
Open AccessThe clock in growing hyphae and their synchronization in Neurospora crassa
Utilizing a microfluidic chip with serpentine channels, we inoculated the chip with an agar plug with Neurospora crassa mycelium and successfully captured individual hyphae in channels. For the first time, we rep...
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Article
Open AccessThe macroscopic limit to synchronization of cellular clocks in single cells of Neurospora crassa
We determined the macroscopic limit for phase synchronization of cellular clocks in an artificial tissue created by a “big chamber” microfluidic device to be about 150,000 cells or less. The dimensions of the ...
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Article
Open AccessEnhancing membrane-based soft materials with magnetic reconfiguration events
Adaptive and bioinspired droplet-based materials are built using the droplet interface bilayer (DIB) technique, assembling networks of lipid membranes through adhered microdroplets. The properties of these lip...
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Article
Open AccessSynchronizing stochastic circadian oscillators in single cells of Neurospora crassa
The synchronization of stochastic coupled oscillators is a central problem in physics and an emerging problem in biology, particularly in the context of circadian rhythms. Most measurements on the biological c...
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Article
Combining positive and negative magnetophoreses to separate particles of different magnetic properties
A new separation method that combines both positive and negative magnetophoreses based on ferrofluids is used to separate mixtures of particles with different magnetic properties. Ferrofluids are stable magnet...
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Article
Three-dimensional and analytical modeling of microfluidic particle transport in magnetic fluids
We present an analytical model that can predict the three-dimensional (3D) transport of non-magnetic particles in magnetic fluids inside a microfluidic channel coupled with permanent magnets. The magnets produ...
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Article
Continuous-flow ferrohydrodynamic sorting of particles and cells in microfluidic devices
A new sorting scheme based on ferrofluid hydrodynamics (ferrohydrodynamics) was used to separate mixtures of particles and live cells simultaneously. Two species of cells, including Escherichia coli and Saccharom...
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Article
Focusing microparticles in a microfluidic channel with ferrofluids
We report a novel on-chip microparticles focusing technique using stable magnetic nanoparticles suspension (i.e., ferrofluids). The principle of focusing is based on magnetic buoyancy forces exerted on non-mag...
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Article
Analytical model of microfluidic transport of non-magnetic particles in ferrofluids under the influence of a permanent magnet
This study describes an analytical model and experimental verifications of transport of non-magnetic spherical microparticles in ferrofluids in a microfluidic system that consists of a microchannel and a perma...
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Article
Continuous separation of non-magnetic particles inside ferrofluids
We present a novel and label-free continuous flow non-magnetic microparticle separation scheme in a microfluidic device under static magnetic fields. The separation process is conducted inside water-based ferr...
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Article
Biomedical Engineered Ferrofluids
The characteristic of combining liquid behavior with and magnetic properties makes ferrofluids unique and it provides them a variety of applications, in particular in the medial field. For medical application ...