Add to ORKGAbstract A polymer molecule (represented by a statistical chain) end-grafted to a topologically rough surface was studied by static MC simulations. A modified self-avoiding walk on a cubic lattice was used to model the polymer in an athermal solution. Different statistical models of surface roughness were applied. Conformational entro-pies of chains attached to uncorrelated Gaussian, Brownian, and fractional Brownian surfaces were calculated. Results were compared with the predictions of a simple analytical model of a macromolecule end-grafted to a fractal surface
A method based on a real space renormalization group transformation is developed to describe the cri...
Theory of the adsorption of polymer chains on rough surfaces is concerned theoretically, including M...
Abstract. Self-consistent field theory (SCFT) is used to examine the surface of an incompressible po...
A Monte Carlo method, namely, the ''statistical counting method'' (SCM) has been...
AbstractThe conformational properties of flexible polymer macromolecules grafted to an attractive pa...
It is conceptually proposed that the total entropy of polymer solution is contributed from two disti...
We study the adsorption problem of linear polymers, immersed in a good solvent, when the container o...
We investigate, by extensive molecular dynamics simulations as well as a simplified single-chain mod...
The elastic properties of polymer-grafted membranes using Monte Carlo simulations of an off-lattice ...
Linear flexible polymers end-grafted onto the spherical surface ("hairy sphere") are simulated using...
Exfoliation of a stack of sheets (a model for clay platelets) in a dynamic matrix of polymer chains ...
Entropic segregation of chain ends to the surface of a monodisperse polymer melt and its effect on s...
We present improved simulations of three-dimensional self-avoiding walks with one end attached to an...
Polymers is a class of molecules which can have many different structures due to a large number of d...
A discrete-to-continuum (DC) simulation approach is introduced to study the statics and dynamics of ...
A method based on a real space renormalization group transformation is developed to describe the cri...
Theory of the adsorption of polymer chains on rough surfaces is concerned theoretically, including M...
Abstract. Self-consistent field theory (SCFT) is used to examine the surface of an incompressible po...
A Monte Carlo method, namely, the ''statistical counting method'' (SCM) has been...
AbstractThe conformational properties of flexible polymer macromolecules grafted to an attractive pa...
It is conceptually proposed that the total entropy of polymer solution is contributed from two disti...
We study the adsorption problem of linear polymers, immersed in a good solvent, when the container o...
We investigate, by extensive molecular dynamics simulations as well as a simplified single-chain mod...
The elastic properties of polymer-grafted membranes using Monte Carlo simulations of an off-lattice ...
Linear flexible polymers end-grafted onto the spherical surface ("hairy sphere") are simulated using...
Exfoliation of a stack of sheets (a model for clay platelets) in a dynamic matrix of polymer chains ...
Entropic segregation of chain ends to the surface of a monodisperse polymer melt and its effect on s...
We present improved simulations of three-dimensional self-avoiding walks with one end attached to an...
Polymers is a class of molecules which can have many different structures due to a large number of d...
A discrete-to-continuum (DC) simulation approach is introduced to study the statics and dynamics of ...
A method based on a real space renormalization group transformation is developed to describe the cri...
Theory of the adsorption of polymer chains on rough surfaces is concerned theoretically, including M...
Abstract. Self-consistent field theory (SCFT) is used to examine the surface of an incompressible po...