We investigate, by extensive molecular dynamics simulations as well as a simplified single-chain model, the influence of steric hindrance on the dynamic properties of nonentangled chains in polymer melt due to confining surfaces. We extend the Rouse model to also include wall effects, using an additional potential that results from the assumption that chain conformations have reflected random-walk statistics, as first advocated by Silberberg. Results for end-to-end vector and Rouse mode correlation functions of chains end-tethered to the surface compare well with those obtained from molecular dynamics simulations of a multichain system using the Kremer–Grest bead–spring model (KG MD). Even though the additional single-chain potential is par...
By applying local primitive path and Rouse modes analysis we study the chains conformations, local d...
We introduce a novel technique that facilitates entangled dynamics of coarse-grained polymer chains ...
In this paper we present a comprehensive lattice Monte Carlo study of long chain conformations at so...
We investigate, by extensive molecular dynamics simulations as well as a simplified single-chain mod...
The dynamics of an entangled polymer melt confined in a channel by parallel plates is investigated b...
We perform non-equilibrium molecular dynamics (MD) shear-flow simulations of an entangled polymer me...
This thesis is concerned with the molecular dynamics and rheology of polymer melts in the vicinity ...
We use molecular dynamics simulations of the Kremer–Grest (KG) bead–spring model of polymer chains o...
For more than half a century the theoretical landscape for single chain dynamics for dense polymeric...
We investigate the dynamic and static properties of a polymer melt near solid surfaces. The melt, co...
For more than half a century the theoretical landscape for single chain dynamics for dense polymeric...
The impact of free surfaces on the mobility and conformational fluctuations of model polymer chains ...
We present coarse-grained molecular dynamics simulations of poly(ethylene-alt-propylene) (PEP) melts...
We investigate via molecular dynamics simulations the behaviour of a polymer melt confined between ...
The segmental (bond) rotational dynamics in a polymer melt of unentangled, linear bead-spring chains...
By applying local primitive path and Rouse modes analysis we study the chains conformations, local d...
We introduce a novel technique that facilitates entangled dynamics of coarse-grained polymer chains ...
In this paper we present a comprehensive lattice Monte Carlo study of long chain conformations at so...
We investigate, by extensive molecular dynamics simulations as well as a simplified single-chain mod...
The dynamics of an entangled polymer melt confined in a channel by parallel plates is investigated b...
We perform non-equilibrium molecular dynamics (MD) shear-flow simulations of an entangled polymer me...
This thesis is concerned with the molecular dynamics and rheology of polymer melts in the vicinity ...
We use molecular dynamics simulations of the Kremer–Grest (KG) bead–spring model of polymer chains o...
For more than half a century the theoretical landscape for single chain dynamics for dense polymeric...
We investigate the dynamic and static properties of a polymer melt near solid surfaces. The melt, co...
For more than half a century the theoretical landscape for single chain dynamics for dense polymeric...
The impact of free surfaces on the mobility and conformational fluctuations of model polymer chains ...
We present coarse-grained molecular dynamics simulations of poly(ethylene-alt-propylene) (PEP) melts...
We investigate via molecular dynamics simulations the behaviour of a polymer melt confined between ...
The segmental (bond) rotational dynamics in a polymer melt of unentangled, linear bead-spring chains...
By applying local primitive path and Rouse modes analysis we study the chains conformations, local d...
We introduce a novel technique that facilitates entangled dynamics of coarse-grained polymer chains ...
In this paper we present a comprehensive lattice Monte Carlo study of long chain conformations at so...