Ab Initio Molecular Dynamics Investigation on NaCl Solution at Diluted Concentration

Publication date: Available online 26 February 2019Source: Computational and Theoretical ChemistryAuthor(s): Yun DingAbstractDespite being one of the simplest and extensively studied systems, the origin of how ions influence water still remains elusive. Many previous studies focused on concentrated solutions, where only limited truly bulk water is present. To gain more insights into the nature of ion-water interactions with the presence of truly bulk water, diluted NaCl solution together with single Na+ and single Cl- solutions are investigated by state-of-the-art ab initio molecular dynamics. Structural, dynamical and electronic properties are studied in some detail. This work revealed that ions do not interrupt the water network in a significant manner under diluted concentration, as shown in almost identical O-O radial distribution functions and angular distributions of water around water in electrolyte solutions and liquid water. Instead, the ions substitute the water molecules in the network and play the role of hydrogen donor or acceptor. The influence of ions on water structure and dipole moment is evident in short-range, where different orientational preferences of water are observed and dipole moment distributions tend to shift to smaller values. Compared with results obtained from single ion solutions, no cooperative effect of Na+⋯Cl- ion pair is observed at hundred picosecond time scale. This work also revealed that the water dynamics is strongly related to the v...
Source: Computational and Theoretical Chemistry - Category: Chemistry Source Type: research
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