Monte Carlo computer simulations have been performed for model polymers confined in slits of thickness comparable to the transverse diameter of the chains. The density of polymer within the slits is allowed to vary with the slit thickness in such a way that the content of the slits is always in equilibrium with a large reservoir of bulk polymer. The calculations reveal the presence of polymer-mediated attractive or repulsive interactions between the slit plates, oscillating with the slit thickness in good agreement with experimental results
We present a lattice computer simulation study on the geometrical confinement effect of polymer solu...
Monomer density profile of polymer chains in the good solvent condition near an impenetrable wall wa...
An off-lattice bead-spring model of a polymer chain trapped between two parallel walls a distance D...
Monte Carlo computer simulations have been performed for model polymers confined in slits of thickn...
Conformation of polymer chains strongly confined in a narrow channel space was studied over a broad ...
This thesis considers confined polymer systems. These systems are of considerable interest, e.g., th...
Abstract. We propose polymer models for Monte Carlo simulation and apply them to a polymer chain con...
We consider the problem of polymer chains confined between two parallel plates (a slit). The interac...
Diffusion-controlled stepwise polymerization of a linear polymer confined in nanoscopic slits is sim...
Metropolis Monte Carlo has been employed with remarkable success over the years to simulate the dens...
Diffusion-controlled stepwise polymerization of a linear polymer confined in nanoscopic slits is sim...
A single polymer chain in solvent confined in a slit formed by two parallel plates is studied by usi...
An off-lattice bead-spring model of self-assembling equilibrium (“living”) polymers is used to study...
The partitioning of a single polymer chain into a slit in a good solvent with different surface inte...
Monte Carlo simulations of an off-lattice bead sping model of polymer chains are presented, confinin...
We present a lattice computer simulation study on the geometrical confinement effect of polymer solu...
Monomer density profile of polymer chains in the good solvent condition near an impenetrable wall wa...
An off-lattice bead-spring model of a polymer chain trapped between two parallel walls a distance D...
Monte Carlo computer simulations have been performed for model polymers confined in slits of thickn...
Conformation of polymer chains strongly confined in a narrow channel space was studied over a broad ...
This thesis considers confined polymer systems. These systems are of considerable interest, e.g., th...
Abstract. We propose polymer models for Monte Carlo simulation and apply them to a polymer chain con...
We consider the problem of polymer chains confined between two parallel plates (a slit). The interac...
Diffusion-controlled stepwise polymerization of a linear polymer confined in nanoscopic slits is sim...
Metropolis Monte Carlo has been employed with remarkable success over the years to simulate the dens...
Diffusion-controlled stepwise polymerization of a linear polymer confined in nanoscopic slits is sim...
A single polymer chain in solvent confined in a slit formed by two parallel plates is studied by usi...
An off-lattice bead-spring model of self-assembling equilibrium (“living”) polymers is used to study...
The partitioning of a single polymer chain into a slit in a good solvent with different surface inte...
Monte Carlo simulations of an off-lattice bead sping model of polymer chains are presented, confinin...
We present a lattice computer simulation study on the geometrical confinement effect of polymer solu...
Monomer density profile of polymer chains in the good solvent condition near an impenetrable wall wa...
An off-lattice bead-spring model of a polymer chain trapped between two parallel walls a distance D...