Dielectric characterisation of polarisable particles, and prediction of the forces and torques exerted upon them, relies on the knowledge of the effective, induced dipole moment. In turn, through the mechanism of depolarisation, the induced dipole moment of a particle is strongly dependent upon its shape. Since realistic shapes create modelling difficulties, the ‘spherical particle ’ approximation is often invoked. However, in many cases, including biological dielectric spectroscopy and dielectrophoresis, this assumption is a poor one. For example, human erythrocytes are essentially oblate spheroids with indented sides, while viruses and bacteria often have elongated cigar shapes. Since shape-dependent polarisation both strongly influences ...
When particles in liquid suspensions flow through channels and pipes in a laminar fashion, the resul...
AbstractWe present a new model for a variety of electric polarization effects on oblate and prolate ...
Recently, there has been growing interest in utilizing electrical fields to position and separate ro...
Dielectric characterisation of polarisable particles, and prediction of the forces and torques exert...
Higher-order terms of dielectrophoretic (DEP) force are commonly ignored by invoking the simplifying...
In analysis of electric field interactions with dielectrics, higher order moments and dielectrophore...
Much of the current literature on dielectrophoresis (DEP) relates to micro or nano scale particles; ...
International audience"The most popular modeling approach for dielectrophoresis (DEP) is the effecti...
Electro-rotation can be used to determine the dielectric properties of cells, as well as to observe ...
A polarisable particle in a non-uniform electric field experiences a force arising from the interact...
Dielectrophoresis is becoming one of the most important techniques in particle manipulation includin...
A numerical method is presented for determination of higher-order dielectrophoretic forces on non-sp...
Effective dipole moment method has been widely accepted as the de facto technique in predicting the ...
In the past few years, there has been an extensive research in the manipulation and analysis of biol...
Dielectrophoresis (DEP), an electrokinetic phenomenon based on particle polarizations in nonuniform ...
When particles in liquid suspensions flow through channels and pipes in a laminar fashion, the resul...
AbstractWe present a new model for a variety of electric polarization effects on oblate and prolate ...
Recently, there has been growing interest in utilizing electrical fields to position and separate ro...
Dielectric characterisation of polarisable particles, and prediction of the forces and torques exert...
Higher-order terms of dielectrophoretic (DEP) force are commonly ignored by invoking the simplifying...
In analysis of electric field interactions with dielectrics, higher order moments and dielectrophore...
Much of the current literature on dielectrophoresis (DEP) relates to micro or nano scale particles; ...
International audience"The most popular modeling approach for dielectrophoresis (DEP) is the effecti...
Electro-rotation can be used to determine the dielectric properties of cells, as well as to observe ...
A polarisable particle in a non-uniform electric field experiences a force arising from the interact...
Dielectrophoresis is becoming one of the most important techniques in particle manipulation includin...
A numerical method is presented for determination of higher-order dielectrophoretic forces on non-sp...
Effective dipole moment method has been widely accepted as the de facto technique in predicting the ...
In the past few years, there has been an extensive research in the manipulation and analysis of biol...
Dielectrophoresis (DEP), an electrokinetic phenomenon based on particle polarizations in nonuniform ...
When particles in liquid suspensions flow through channels and pipes in a laminar fashion, the resul...
AbstractWe present a new model for a variety of electric polarization effects on oblate and prolate ...
Recently, there has been growing interest in utilizing electrical fields to position and separate ro...