Add to ORKGInteraction of external electric field with free and bound charges in the salt solution volume in polar dielectric fluid was considered and the equation describing ion oscillations relative to solvent molecules was obtained. Fundamental frequencies of the solvation shell relative to the ion in different approximations describing the system: ion - solvation shell were evaluated. The results of comparison with the experiment pointed out that the model, in which the solvated ion is considered as a spherical rotator formed by the solvent molecules layer bordering with the external solvation shell, is the most appropriate. It provides an opportunity of development of new technologies for extraction of rare earth elements
The influence of an inhomogeneous dielectric response on the dynamics of solvation of ions and dipol...
We revisit the role of the local solvent structure on the activity coefficients of electrolytes with...
Polarization deficiency and excess ion hydration free energy at an electric field E (ion hydration f...
Interaction of external electric field with free and bound charges in the salt solution volume in po...
Interaction of external electric field with free and bound charges in the salt solution volume in po...
The aim of study is to demonstrate that separation of solvated ions in solution of mix of salts unde...
The results of experiments on the excitation of the phenomenon of selective drift of solvated ions u...
This work is focused on analyzing ion-pair interactions and showing the effect of solvent induced in...
A microscopic theory of equilibrium solvation and solvation dynamics of a classical, polar, solute m...
An analysis is provided of the subnanosecond dynamic solvation of ionic liquids in particular and io...
In the past, studies of electrolyte solutions have generally treated the solvent only as a dielectri...
Free energy analysis of solvation structures of free divalent cations, their ion pairs, and neutral ...
We present a dielectric continuum model that, at a semiquantitative level, explains why ion pair for...
The problem of determination of sizes of supermolecular formation (a cluster) consisting of the mole...
A theory for the frequency dependence of ionic conductivity of an electrolyte solution is presented....
The influence of an inhomogeneous dielectric response on the dynamics of solvation of ions and dipol...
We revisit the role of the local solvent structure on the activity coefficients of electrolytes with...
Polarization deficiency and excess ion hydration free energy at an electric field E (ion hydration f...
Interaction of external electric field with free and bound charges in the salt solution volume in po...
Interaction of external electric field with free and bound charges in the salt solution volume in po...
The aim of study is to demonstrate that separation of solvated ions in solution of mix of salts unde...
The results of experiments on the excitation of the phenomenon of selective drift of solvated ions u...
This work is focused on analyzing ion-pair interactions and showing the effect of solvent induced in...
A microscopic theory of equilibrium solvation and solvation dynamics of a classical, polar, solute m...
An analysis is provided of the subnanosecond dynamic solvation of ionic liquids in particular and io...
In the past, studies of electrolyte solutions have generally treated the solvent only as a dielectri...
Free energy analysis of solvation structures of free divalent cations, their ion pairs, and neutral ...
We present a dielectric continuum model that, at a semiquantitative level, explains why ion pair for...
The problem of determination of sizes of supermolecular formation (a cluster) consisting of the mole...
A theory for the frequency dependence of ionic conductivity of an electrolyte solution is presented....
The influence of an inhomogeneous dielectric response on the dynamics of solvation of ions and dipol...
We revisit the role of the local solvent structure on the activity coefficients of electrolytes with...
Polarization deficiency and excess ion hydration free energy at an electric field E (ion hydration f...