The statistical trajectory matching (STM) method was applied successfully to derive coarse grain (CG) models for bulk properties of homopolymers. The extension of the methodology for building CG models for statistical copolymer systems is much more challenging. We present here the strategy for developing CG models for styrene–butadiene–rubber, and we compare the quality of the resulting CG force fields on the structure and thermodynamics at different chemical compositions. The CG models are used through the use of a genuine mesoscopic method called the dissipative particle dynamics method and compared to high-resolution molecular dynamics simulations. We conclude that the STM method is able to produce coarse-grained potentials that are tran...
In order to be able to simulate long time and large space scale properties of polymer melts one has ...
In this work, we investigate the application of coarse-graining (CG) methods to molecular dynamics (...
We present a hybrid coarse-grained-atomistic model for soft materials that enables an easy and smoot...
The statistical trajectory matching (STM) method was applied successfully to derive coarse grain (CG...
Coarse-grained (CG) models allow for simulating the necessary time and length scales relevant to pol...
The paper introduces a systematic procedure to coarse-grain atomistic models of the largest family o...
A coarse-grained (CG) model for atactic polystyrene is presented and studied with classical molecula...
A coarse-grained (CG) model for atactic polystyrene is presented and studied with classical molecula...
We present results from a detailed study of a new, optimized coarse-grained (CG) model of polystyren...
We present a practical coarse-grain (CG) force field for dissipative particle dynamics (DPD) simulat...
This thesis studies molecular dynamics simulations on two levels of resolution: the detailed level o...
We derive a systematic and general method for parameterizing coarse-grained molecular models consist...
International audienceA new Bayesian method was recently introduced for developing coarse-grain (CG)...
We present a versatile systematic two-bead-per-monomer coarse-grain modeling strategy for simulating...
In this study we explore a systematic procedure to coarsen a microscopic model towards a mesoscopic ...
In order to be able to simulate long time and large space scale properties of polymer melts one has ...
In this work, we investigate the application of coarse-graining (CG) methods to molecular dynamics (...
We present a hybrid coarse-grained-atomistic model for soft materials that enables an easy and smoot...
The statistical trajectory matching (STM) method was applied successfully to derive coarse grain (CG...
Coarse-grained (CG) models allow for simulating the necessary time and length scales relevant to pol...
The paper introduces a systematic procedure to coarse-grain atomistic models of the largest family o...
A coarse-grained (CG) model for atactic polystyrene is presented and studied with classical molecula...
A coarse-grained (CG) model for atactic polystyrene is presented and studied with classical molecula...
We present results from a detailed study of a new, optimized coarse-grained (CG) model of polystyren...
We present a practical coarse-grain (CG) force field for dissipative particle dynamics (DPD) simulat...
This thesis studies molecular dynamics simulations on two levels of resolution: the detailed level o...
We derive a systematic and general method for parameterizing coarse-grained molecular models consist...
International audienceA new Bayesian method was recently introduced for developing coarse-grain (CG)...
We present a versatile systematic two-bead-per-monomer coarse-grain modeling strategy for simulating...
In this study we explore a systematic procedure to coarsen a microscopic model towards a mesoscopic ...
In order to be able to simulate long time and large space scale properties of polymer melts one has ...
In this work, we investigate the application of coarse-graining (CG) methods to molecular dynamics (...
We present a hybrid coarse-grained-atomistic model for soft materials that enables an easy and smoot...