Add to ORKGOver the past two decades polymer nanocomposites have received tremendous interest from industry and academia due to their advanced properties comparative to polymer blends. Many computational studies have revealed that the macroscopic properties of polymer nanocomposites depend strongly on the microscopic polymer structure and conformations. In this article we review simulation studies of the fundamental problem of polymer structure and dimensions in nanocomposites containing bare spherical or rod nanoparticles. Experimentally, there is controversy over whether the addition of nanoparticles in a polymer matrix can perturb the polymer chains
AbstractThe understanding of the basic physical relationships between nano-scale structural variable...
Motivated by increasing interest in various types of nanoparticles or fillers added to polymers to e...
The understanding of the basic physical relationships between nano-scale structural variables and th...
Multiscale molecular modeling (MsM) techniques are applied in many \ufb01elds of material science, b...
We investigate the effect of various spherical nanoparticles on chain dimensions in polymer melts fo...
Theoretical and computational studies of polymer nanocomposites have largely focused on spherical in...
Following the substantial progress in molecular simulations of polymer-matrix nanocomposites, now is...
Multiscale molecular modelling (MsM) techniques are applied in many fields of material science, but ...
A survey of the present understanding of particle-filled polymers is presented, as obtained from eit...
A current challenge of physical, chemical, and engineering sciences is to develop theoretical tools ...
A survey of the present understanding of particle-filled polymers is presented, as obtained from eit...
Conformations, entanglements and dynamics in attractive polymer nanocomposites are investigated in t...
Detailed molecular dynamics (MD) simulations are employed to study how the presence of adsorbed doma...
Polymer Nanocomposites are an important class of nanomaterials with potential applications including...
The focus of this thesis is on the single chain conformation and dynamics in polymer melts, nanocomp...
AbstractThe understanding of the basic physical relationships between nano-scale structural variable...
Motivated by increasing interest in various types of nanoparticles or fillers added to polymers to e...
The understanding of the basic physical relationships between nano-scale structural variables and th...
Multiscale molecular modeling (MsM) techniques are applied in many \ufb01elds of material science, b...
We investigate the effect of various spherical nanoparticles on chain dimensions in polymer melts fo...
Theoretical and computational studies of polymer nanocomposites have largely focused on spherical in...
Following the substantial progress in molecular simulations of polymer-matrix nanocomposites, now is...
Multiscale molecular modelling (MsM) techniques are applied in many fields of material science, but ...
A survey of the present understanding of particle-filled polymers is presented, as obtained from eit...
A current challenge of physical, chemical, and engineering sciences is to develop theoretical tools ...
A survey of the present understanding of particle-filled polymers is presented, as obtained from eit...
Conformations, entanglements and dynamics in attractive polymer nanocomposites are investigated in t...
Detailed molecular dynamics (MD) simulations are employed to study how the presence of adsorbed doma...
Polymer Nanocomposites are an important class of nanomaterials with potential applications including...
The focus of this thesis is on the single chain conformation and dynamics in polymer melts, nanocomp...
AbstractThe understanding of the basic physical relationships between nano-scale structural variable...
Motivated by increasing interest in various types of nanoparticles or fillers added to polymers to e...
The understanding of the basic physical relationships between nano-scale structural variables and th...