Add to ORKGThe structural, dynamic, and thermodynamic properties of an excess electron interacting with an alkali cation (Na+, K+, Li+) in bulk water were investigated by means of a mixed quantum-classical molecular dynamics simulation technique. This study includes a reparametrization of the electron-cation pseudopotentials. The free energy calculations for all three systems show that a contact electron-cation pair can be observed, which is either as stable as the dissociated pair (Li+) or more stable by only a few kT (Na+, K+). Given that the dissociation barrier is also quite small, we suggest that the average cation-electron distance in the experiments at room temperature will not depend on this free energy profile but rather on the minimization o...
Metal ions solvated in aqueous, non-aqueous, and mixtures of solvents occur in many chemical context...
The investigation of salts in water at extreme conditions is crucial to understanding the properties...
Quantum molecular dynamics simulations have been performed for an alkali atom (sodium) diluted in a ...
The structural, dynamic, and thermodynamic properties of an excess electron interacting with an alka...
Amixed quantum classical molecular dynamics (QCMD) simulation of the silver and sodium cations in pr...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
The solvation structure of water molecules around alkali metal halides in a supercritical condition ...
This study presents an ab-initio method based on the Discretized Path Integral Molecular Dynamics (D...
We have performed molecular dynamics (MD) simulations to explore the structure and dynamics of the i...
The monovalent ions Na+ and K+ and Cl− are present in any living organism. The fundamental thermodyn...
We report extensive molecular dynamics simulations of (i) model ions in water at high concentrations...
Photoelectron spectroscopy combined with the liquid microjet technique enables the direct probing of...
We report mixed quantum-classical molecular dynamics simulations of the opti-cal absorption spectrum...
In the present paper, we use statistical mechanics to probe into the changes induced by cations (Al3...
Metal ions solvated in aqueous, non-aqueous, and mixtures of solvents occur in many chemical context...
The investigation of salts in water at extreme conditions is crucial to understanding the properties...
Quantum molecular dynamics simulations have been performed for an alkali atom (sodium) diluted in a ...
The structural, dynamic, and thermodynamic properties of an excess electron interacting with an alka...
Amixed quantum classical molecular dynamics (QCMD) simulation of the silver and sodium cations in pr...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
The dynamic and energetic properties of the alkali and halide ions were calculated using molecular d...
The solvation structure of water molecules around alkali metal halides in a supercritical condition ...
This study presents an ab-initio method based on the Discretized Path Integral Molecular Dynamics (D...
We have performed molecular dynamics (MD) simulations to explore the structure and dynamics of the i...
The monovalent ions Na+ and K+ and Cl− are present in any living organism. The fundamental thermodyn...
We report extensive molecular dynamics simulations of (i) model ions in water at high concentrations...
Photoelectron spectroscopy combined with the liquid microjet technique enables the direct probing of...
We report mixed quantum-classical molecular dynamics simulations of the opti-cal absorption spectrum...
In the present paper, we use statistical mechanics to probe into the changes induced by cations (Al3...
Metal ions solvated in aqueous, non-aqueous, and mixtures of solvents occur in many chemical context...
The investigation of salts in water at extreme conditions is crucial to understanding the properties...
Quantum molecular dynamics simulations have been performed for an alkali atom (sodium) diluted in a ...