0000000001333735

AUTHOR

Borovsky, Jan

showing 6 related works from this author

M12_Microfluidics_for_CNT

2018

The droplets exchanging in the trap causes visible scattering of the laser beam focused on the droplet. The obvious change of laser light intensity can be used for detection of droplet exchange.

Physics::Fluid DynamicsPhysics::Atomic and Molecular ClustersmicrofluidicsPhysics::Atomic Physicslaser scatteringdetection strategy
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M5_Microfluidics_for_CNT

2018

The features of the sorting junction. Pressure balancer helps to equilibrate the pressure difference created by the presence of a droplet. The transition from shallow to deep channel mediates the transition from free to confined regime. The droplets are separated in the sorting junction according to the flow rate ratio.

Physics::Fluid Dynamicspressure balancershallow-to-deep transitionhydrodynamic sortingdigestive oral and skin physiologymicrofluidicseye diseases
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M13_Microfluidics_for_CNT

2018

Compared to pure water, the CNT dispersion has much lower interfacial tension at the dispersion – glass interface due to the presence of SDBS surfactant. Since the behavior of microfluidic system in the confined regime is driven by liquid – solid interfacial tension, the droplet formation and droplet propagation are unstable and unpredictable.

Condensed Matter::Soft Condensed MatterPhysics::Fluid Dynamicsdroplet formationPhysics::Atomic and Molecular ClustersmicrofluidicsCNT dispersioninterfacial tension
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M3_Microfluidics_for_CNT

2018

Droplet production in T-junction microfluidic device. The droplets are cut off from the water phase flow by pressure of oil. The droplets confined in the channel proceed at the same speed as the continuous phase.

Physics::Fluid Dynamicsendocrine systemdroplet formationT-junctionconfined regimetechnology industry and agriculturePhysics::Atomic and Molecular Clustersmicrofluidicscomplex mixtureseye diseases
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M4_Microfluidics_for_CNT

2018

Size and frequency of the droplets produced in T-junction as a function of continuous and disperse phase pressure ratio.

Physics::Fluid Dynamicsendocrine systemCondensed Matter::Superconductivitydroplet frequencytechnology industry and agriculturePhysics::Atomic and Molecular Clustersmicrofluidicsdroplet sizeCondensed Matter::Mesoscopic Systems and Quantum Hall Effectpressure ratiocomplex mixtureseye diseases
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M14_Microfluidics_for_CNT

2018

The CNT dispersion with low SDBS content allows stable droplet formation but leads to fast formation of CNT plugs in the hydrophobic channels. The selective channel surface treatment allows long-term stable functionality of the microfluidic system.

educationmicrofluidicsselective surface treatmentlong-term stabilityCNT plug
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