Recently many various research groups have devoted a huge effort to develop a realistic classical force field for ions in water. The parametrization techniques used could be gathered into two classes: (i) fit of the ab initio potential energy surface for clusters at gas phase, and (ii) fit of experimental properties. For both classes of force fields, a high level of accuracy has been achieved, which has led to important improvements in the modeling of ion–water systems. In this paper a new, complementary, approach is proposed to overcome the limitations and to get a deeper insight into the atomistic description of ion–water interactions. We use the recently developed force matching method to parametrize classical halide–water force fields f...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
Presented are parameters for mono-, di-, and trivalent cations compatible with the CHARMM additive f...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
Recently many various research groups have devoted a huge effort to develop a realistic classical fo...
New potential energy functions (i-TTM) describing the interactions between halide ions and water mol...
11 págs.; 7 figs.; 4 tabs.New potential energy functions (i-TTM) describing the interactions between...
11 pagesInternational audienceIn this work, we investigate the hydration of the halide ions fluoride...
In recent years atomistic simulations have become increasingly important in providing molecular insi...
The current state-of-the-art force fields (FFs) for Na+ and Cl−ions are not capable of simultaneousl...
Despite recent progress, a unified understanding of how ions affect the structure and dynamics of wa...
International audienceWe propose a general strategy to remediate force‐field artifacts in describing...
1 pag., 1 fig. -- Open Access funded by Creative Commons Atribution Licence 3.0The behavior of ions...
We evaluate the ability of selected classical molecular models to describe the thermodynamic and str...
The development of first-principles halide-water interaction potentials for fluoride and iodide anio...
16 pags., 6 figs. --This article belongs to the Section Computational and Theoretical ChemistryDisso...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
Presented are parameters for mono-, di-, and trivalent cations compatible with the CHARMM additive f...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
Recently many various research groups have devoted a huge effort to develop a realistic classical fo...
New potential energy functions (i-TTM) describing the interactions between halide ions and water mol...
11 págs.; 7 figs.; 4 tabs.New potential energy functions (i-TTM) describing the interactions between...
11 pagesInternational audienceIn this work, we investigate the hydration of the halide ions fluoride...
In recent years atomistic simulations have become increasingly important in providing molecular insi...
The current state-of-the-art force fields (FFs) for Na+ and Cl−ions are not capable of simultaneousl...
Despite recent progress, a unified understanding of how ions affect the structure and dynamics of wa...
International audienceWe propose a general strategy to remediate force‐field artifacts in describing...
1 pag., 1 fig. -- Open Access funded by Creative Commons Atribution Licence 3.0The behavior of ions...
We evaluate the ability of selected classical molecular models to describe the thermodynamic and str...
The development of first-principles halide-water interaction potentials for fluoride and iodide anio...
16 pags., 6 figs. --This article belongs to the Section Computational and Theoretical ChemistryDisso...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
Presented are parameters for mono-, di-, and trivalent cations compatible with the CHARMM additive f...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...