The structure and dynamics of water in ionic solutions at high pressure have been investigated using a combined approach based on extended X-ray absorption fine structure (EXAFS) spectroscopy and Molecular Dynamics (MD) simulations. Modification of the hydration properties of the Zn2+ ion induced by a pressure increase from ambient condition up to similar to 6.4 GPa has been revealed and accurately analyzed. With increasing pressure the first hydration shell of the Zn2+ ion has been found to retain an octahedral symmetry with a shortening of the Zn-O distance up to 0.09 angstrom and an increased width associated with thermal motion, as compared to the ambient condition hydration complex A very interesting picture of the dynamic behavior of ...
With ab initio molecular dynamics simulations, the free-energy profiles of hydrated Zn2+ are calcula...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
Structural modifications of the Zn(2+) hydration properties under high pressure (up to 2.85 GPa) hav...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
A detailed investigation of the hydration structure of Zn2+, Ni2+, and Co2+ in water solutions has b...
With ab initio molecular dynamics simulations, the free-energy profiles of hydrated Zn2+ are calcula...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
The structure and dynamics of water in ionic solutions at high pressure have been investigated using...
Structural modifications of the Zn(2+) hydration properties under high pressure (up to 2.85 GPa) hav...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
The structural modifications induced on a 0.5 M Zn2+ aqueous solution by increasing the pressure to ...
A detailed investigation of the hydration structure of Zn2+, Ni2+, and Co2+ in water solutions has b...
With ab initio molecular dynamics simulations, the free-energy profiles of hydrated Zn2+ are calcula...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...
This work deals with the effect of increasing pressure at 298.15 K on the structure and hydration sh...