We extend the bond fluctuation model, originally devised to investigate polymer systems, to contain anisotropic interactions suitable for the simulation of large flexible molecules such as liquid crystalline polymers and dendrimers. This extended model coarse grains the interaction between the flexible chains at a similar level of detail to the mesogenic units. Suitable interaction parameters are obtained by performing trial simulations on a low molar mass liquid crystalline system. The phase diagram of this system is determined as a function of the molecular stiffness. The nematic to isotropic transition temperature is found to increase with increasing stiffness
We present a systematic derivation of a coarse grained (CG) model for molecular dynamics (MD) simula...
The essential molecular features responsible for the unusual nematic behaviour of liquid crystal dim...
Over the last decade, the availability of computer time, together with new algorithms capable of exp...
Understanding the behavior of semi-flexible polymers when immersed in a nematic phase of a liquid cr...
In this paper, with the aim to establish a rational coarse-grained (CG) model for the 4-cyano-4′-pen...
Liquid crystalline polymers exhibit a particular richness of behaviors that stems from their rigidit...
A coarse-grained simulation model for a third generation liquid crystalline dendrimer (LCDr) is pres...
We present a systematic derivation of a coarse grained (CG) model for molecular dynamics (MD) simula...
This thesis explores the coarse-graining (CG) of complex fluids, namely polymers and liquid crystals...
A microscopic model is developed to describe statistical properties of a nematic phase consisting of...
simulation, elastic constants, rotational viscosity, helical twisting powers, atomistic simulation, ...
Molecular simulations provide an increasingly useful insight into the static and dynamic characteris...
Liquid-crystal polymers (LCPs) are well known materials for functional sensor and actuators, because...
A microscopic model is developed to describe properties of a nematic phase consisting of semiflexibl...
We present large scale molecular dynamics simulations of liquid crystals, which are modeled as fluid...
We present a systematic derivation of a coarse grained (CG) model for molecular dynamics (MD) simula...
The essential molecular features responsible for the unusual nematic behaviour of liquid crystal dim...
Over the last decade, the availability of computer time, together with new algorithms capable of exp...
Understanding the behavior of semi-flexible polymers when immersed in a nematic phase of a liquid cr...
In this paper, with the aim to establish a rational coarse-grained (CG) model for the 4-cyano-4′-pen...
Liquid crystalline polymers exhibit a particular richness of behaviors that stems from their rigidit...
A coarse-grained simulation model for a third generation liquid crystalline dendrimer (LCDr) is pres...
We present a systematic derivation of a coarse grained (CG) model for molecular dynamics (MD) simula...
This thesis explores the coarse-graining (CG) of complex fluids, namely polymers and liquid crystals...
A microscopic model is developed to describe statistical properties of a nematic phase consisting of...
simulation, elastic constants, rotational viscosity, helical twisting powers, atomistic simulation, ...
Molecular simulations provide an increasingly useful insight into the static and dynamic characteris...
Liquid-crystal polymers (LCPs) are well known materials for functional sensor and actuators, because...
A microscopic model is developed to describe properties of a nematic phase consisting of semiflexibl...
We present large scale molecular dynamics simulations of liquid crystals, which are modeled as fluid...
We present a systematic derivation of a coarse grained (CG) model for molecular dynamics (MD) simula...
The essential molecular features responsible for the unusual nematic behaviour of liquid crystal dim...
Over the last decade, the availability of computer time, together with new algorithms capable of exp...