We perform molecular dynamics simulations to study the structure and dynamics of the ionic liquid [Omim][TFSI] in a broad temperature range. A particular focus is the progressing nanoscale segregation into polar and nonpolar regions upon cooling. As this analysis requires simulations of large systems for long times, we use the iterative Boltzmann inversion method to develop a new coarse-grained (CG) model from a successful all-atom (AA) model.We show that the properties are similar for both levels of description at room temperature, while the CG model shows stronger nanoscale segregation and faster diffusion dynamics than its AA counterpart at low temperatures. Exploiting these features of the CG model, we find that the characteristic lengt...
We have investigated the role of microphase segregation as the driving force in the stabilization of...
Hypothesis Imidazolium-based ionic liquids (ILs) in water exhibit a surfactant-like behavior that i...
721-726Room temperature ionic liquids contain molecular ions which are, in general, monovalent. In ...
We perform molecular dynamics simulations to study the structure and dynamics of the ionic liquid [O...
A coarse-grained ionic liquid model has been developed to investigate the structure and dynamic prop...
A model to perform coarse grained molecular dynamics simulations of room temperature ionic liquids o...
Room-temperature ionic liquids (RTILs) stand out among molecular liquids for their rich physicochemi...
Ionic liquids have many promising industrial applications. The side-chain length of the cations has ...
Computer simulations provide a unique insight into the microscopic details, molecular interactions a...
Because of the sluggish dynamic and complex electrostatic potential networks of ionic liquids, estab...
We develop coarse-grained force fields (CGFFs) for computationally efficient and accurate molecular ...
Ionic liquids feature thermophysical properties that are of interest in solvents, energy storage mat...
Because of the sluggish dynamic and complex electrostatic potential networks of ionic liquids, estab...
© 2020 Author(s). Computer simulations can provide mechanistic insight into ionic liquids (ILs) and ...
We use molecular dynamics simulations over microsecond time scales to study the structure and dynam...
We have investigated the role of microphase segregation as the driving force in the stabilization of...
Hypothesis Imidazolium-based ionic liquids (ILs) in water exhibit a surfactant-like behavior that i...
721-726Room temperature ionic liquids contain molecular ions which are, in general, monovalent. In ...
We perform molecular dynamics simulations to study the structure and dynamics of the ionic liquid [O...
A coarse-grained ionic liquid model has been developed to investigate the structure and dynamic prop...
A model to perform coarse grained molecular dynamics simulations of room temperature ionic liquids o...
Room-temperature ionic liquids (RTILs) stand out among molecular liquids for their rich physicochemi...
Ionic liquids have many promising industrial applications. The side-chain length of the cations has ...
Computer simulations provide a unique insight into the microscopic details, molecular interactions a...
Because of the sluggish dynamic and complex electrostatic potential networks of ionic liquids, estab...
We develop coarse-grained force fields (CGFFs) for computationally efficient and accurate molecular ...
Ionic liquids feature thermophysical properties that are of interest in solvents, energy storage mat...
Because of the sluggish dynamic and complex electrostatic potential networks of ionic liquids, estab...
© 2020 Author(s). Computer simulations can provide mechanistic insight into ionic liquids (ILs) and ...
We use molecular dynamics simulations over microsecond time scales to study the structure and dynam...
We have investigated the role of microphase segregation as the driving force in the stabilization of...
Hypothesis Imidazolium-based ionic liquids (ILs) in water exhibit a surfactant-like behavior that i...
721-726Room temperature ionic liquids contain molecular ions which are, in general, monovalent. In ...