A particle-based mesoscopic model for fluid dynamics has recently introduced. The model has been mainly developed for simulating a mesoscale coarse-grained dynamics for solvent-solute interaction in complex fluids such as polymers in solution and colloid suspension. In the present contribution the equilibrium properties and the relaxation dynamics of a DNA molecule are investigated. The model has proven to be fully able to capture the essential features of polymer dynamics in a good solvent. Moreover here this approach has been applied for the first time to study DNA dynamics in slit-like geometries
This thesis aims to bridge the macroscopic properties and microscopic behavior of macromolecules in ...
Double-stranded DNA offers a robust platform for investigating fundamental questions regarding the d...
Abstract. We present a multiscale approach to the modeling of polymer dynamics in the presence of a ...
A particle-based mesoscopic model for fluid dynamics has recently introduced. The model has been mai...
The fast development of microfluidic devices are helping to realize the possibility of flow control ...
The effect of a slit-like confinement on the relaxation dynamics of DNA is studied via a mesoscale m...
In this numerical study, the transport and dynamics of an isolated DNA in rotational flow generated ...
Modeling the dynamics of a confined, semiflexible polymer is a challenging problem, owing to the com...
We use Brownian dynamics (BD) simulation of a coarse-grained (CG) bead-spring model of DNA to study ...
The motion of DNA (in the bulk solution) and the non-Newtonian effective fluid behavior are consider...
The detection of linear polymers translocating through a nanoscopic pore is a promising idea for the...
We use Brownian dynamics (BD) simulation of a coarse-grained (CG) bead-spring model of DNA to study ...
Polyelectrolytes constitute an important group of materials, used for such different purposes as the...
DNA molecules were used as a model system to investigate fundamental problems in polymer physics; na...
This thesis aims to bridge the macroscopic properties and microscopic behavior of macromolecules in ...
Double-stranded DNA offers a robust platform for investigating fundamental questions regarding the d...
Abstract. We present a multiscale approach to the modeling of polymer dynamics in the presence of a ...
A particle-based mesoscopic model for fluid dynamics has recently introduced. The model has been mai...
The fast development of microfluidic devices are helping to realize the possibility of flow control ...
The effect of a slit-like confinement on the relaxation dynamics of DNA is studied via a mesoscale m...
In this numerical study, the transport and dynamics of an isolated DNA in rotational flow generated ...
Modeling the dynamics of a confined, semiflexible polymer is a challenging problem, owing to the com...
We use Brownian dynamics (BD) simulation of a coarse-grained (CG) bead-spring model of DNA to study ...
The motion of DNA (in the bulk solution) and the non-Newtonian effective fluid behavior are consider...
The detection of linear polymers translocating through a nanoscopic pore is a promising idea for the...
We use Brownian dynamics (BD) simulation of a coarse-grained (CG) bead-spring model of DNA to study ...
Polyelectrolytes constitute an important group of materials, used for such different purposes as the...
DNA molecules were used as a model system to investigate fundamental problems in polymer physics; na...
This thesis aims to bridge the macroscopic properties and microscopic behavior of macromolecules in ...
Double-stranded DNA offers a robust platform for investigating fundamental questions regarding the d...
Abstract. We present a multiscale approach to the modeling of polymer dynamics in the presence of a ...