peer reviewedA computational approach that couples molecular-dynamics (MD) and the-finite-element-method (FEM) technique is here proposed for the theoretical study of the dynamics of particles subjected to electromechanical forces. The system consists of spherical particles (modeled as micrometric rigid bodies with proper densities and dielectric functions) suspended in a colloidal solution, which flows in a microfluidic channel in the presence of a generic nonuniform variable electric field generated by electrodes. The particles are subjected to external forces (e.g., drag or gravity) which satisfy a particlelike formulation that is typical of the MD approach, along with an electromechanical force that, in turn, requires the three-dimensio...
In a non-uniform electric field, the surface charge of the deformable particle is polarized, resulti...
A new simulation technique is introduced to couple a flexible particle domain as encountered in soft...
Much of the current literature on dielectrophoresis (DEP) relates to micro or nano scale particles; ...
A computational approach that couples molecular-dynamics (MD) and the-finite-element-method (FEM) te...
peer reviewedA computational approach coupling Molecular Dynamics (MD)-Finite Element Method (FEM) t...
We model and simulate dielectrophoresis of microscale particles using the finite element method. A s...
A numerical scheme for simulating electrokinetic microfluidics in systems with an arbitrary geometry...
A numerical scheme is presented for simulating electrokinetic microfluidics in systems with arbitrar...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityRecent ex...
A numerical scheme is developed to simulate the motion of dielectric particles in the uniform and no...
A numerical method is performed to study the suspension of polarizable particles in nonconductive so...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Microfluidics refers to systems composed of fluid conduits and chambers with characteristic dimensio...
Atomistic-scale behavior drives performance in many micro- and nano-fluidic systems, such as mircrof...
Microelectromechanical systems (MEMS) combine high levels sensitivity and multifunctionality with sm...
In a non-uniform electric field, the surface charge of the deformable particle is polarized, resulti...
A new simulation technique is introduced to couple a flexible particle domain as encountered in soft...
Much of the current literature on dielectrophoresis (DEP) relates to micro or nano scale particles; ...
A computational approach that couples molecular-dynamics (MD) and the-finite-element-method (FEM) te...
peer reviewedA computational approach coupling Molecular Dynamics (MD)-Finite Element Method (FEM) t...
We model and simulate dielectrophoresis of microscale particles using the finite element method. A s...
A numerical scheme for simulating electrokinetic microfluidics in systems with an arbitrary geometry...
A numerical scheme is presented for simulating electrokinetic microfluidics in systems with arbitrar...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityRecent ex...
A numerical scheme is developed to simulate the motion of dielectric particles in the uniform and no...
A numerical method is performed to study the suspension of polarizable particles in nonconductive so...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Microfluidics refers to systems composed of fluid conduits and chambers with characteristic dimensio...
Atomistic-scale behavior drives performance in many micro- and nano-fluidic systems, such as mircrof...
Microelectromechanical systems (MEMS) combine high levels sensitivity and multifunctionality with sm...
In a non-uniform electric field, the surface charge of the deformable particle is polarized, resulti...
A new simulation technique is introduced to couple a flexible particle domain as encountered in soft...
Much of the current literature on dielectrophoresis (DEP) relates to micro or nano scale particles; ...