Electric field driven pumping in microfluidic device
Pumping of fluids with precise control is one of the key components in a microfluidic device.
The electric field has been used as one of the most popular and efficient nonmechanical …
The electric field has been used as one of the most popular and efficient nonmechanical …
Mechanical characterization of vesicles and cells: A review
Vesicles perform many essential functions in all living organisms. They respond like a
transducer to mechanical stress in converting the applied force into mechanical and …
transducer to mechanical stress in converting the applied force into mechanical and …
Adeno-associated virus characterization for cargo discrimination through nanopore responsiveness
Solid-state nanopore (SSN)-based analytical methods have found abundant use in
genomics and proteomics with fledgling contributions to virology–a clinically critical field with …
genomics and proteomics with fledgling contributions to virology–a clinically critical field with …
Electrodeformation of vesicles suspended in a liquid medium
Deformation of flexible vesicles suspended in a fluid medium due to an applied electric field
can provide valuable insight into deformation dynamics at a very small scale. In an electric …
can provide valuable insight into deformation dynamics at a very small scale. In an electric …
[HTML][HTML] Combined AC electroosmosis and dielectrophoresis for controlled rotation of microparticles
W Rezanoor, P Dutta - Biomicrofluidics, 2016 - pubs.aip.org
Electrorotation is widely used for characterization of biological cells and materials using a
rotating electric field. Generally, multiphase AC electric fields and quadrupolar electrode …
rotating electric field. Generally, multiphase AC electric fields and quadrupolar electrode …
A coupled immersed boundary and immersed interface method for interfacial flows with soluble surfactant
In this paper, we develop a coupled immersed boundary (IB) and immersed interface
method (IIM) to simulate the interfacial flow problems with soluble surfactant. That is, a …
method (IIM) to simulate the interfacial flow problems with soluble surfactant. That is, a …
Iterative dipole moment method for the interaction of multiple dielectrophoretic particles in an AC electrical field
C Xie, B Chen, L Liu, H Chen, J Wu - European Journal of Mechanics-B …, 2016 - Elsevier
Dielectrophoresis (DEP) for bio-particle manipulation has been drawing much attention in
recent years. The equivalent dipole moment method (EDM) has widely been used to …
recent years. The equivalent dipole moment method (EDM) has widely been used to …
Dielectrophoretic interaction of two particles in a uniform electric field
The local electric field distorsion induced by a dielectric particle leads to particle–particle
interactions and assembly which is very interesting for their useful applications on …
interactions and assembly which is very interesting for their useful applications on …
Electrophoretic transport and dynamic deformation of bio‐vesicles
Study of the deformation dynamics of cells and other sub‐micron vesicles, such as virus and
neurotransmitter vesicles are necessary to understand their functional properties. This …
neurotransmitter vesicles are necessary to understand their functional properties. This …
Dielectrophoretic motion of a red blood cell in a microfluidic environment: Insights from numerical simulations
A Ranjbaran - Physics of Fluids, 2024 - pubs.aip.org
This research delves into the dielectrophoresis (DEP) behavior of a biological cell within a
sinusoidal-shaped microchannel utilizing the Maxwell stress tensor (MST) theory. A red …
sinusoidal-shaped microchannel utilizing the Maxwell stress tensor (MST) theory. A red …