Molecular Dynamics Simulation of Limiting Conductance for Li + Ion in Supercritical Water using Polarizable Models |
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Authors: | Song Hi Lee |
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Institution: | Department of Chemistry , Kyungsung University , Pusan , 608-736 , South Korea |
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Abstract: | We report results of molecular dynamics simulations of the limiting conductance of Li + ion in ambient water and in supercritical water using polarizable models for water and Li + . The limiting conductances of Li + in ambient water calculated from mean square displacement (MSD) using four points transferable intermolecular potential model (TIP4P), extended simple point charge model (SPC/E), and revised polarizable model 1 (RPOL1) are larger than the experimental value. The behavior of the limiting conductance of Li + in supercritical water using the RPOL models results in good agreement with experimental results for the limiting conductance of LiCl. The agreement of the RPOL1 model with the experimental results is much better than the RPOL2 model in the higher-density regime, whereas that of the RPOL2 model is much better than the RPOL1 model in the lower-density regime. Using the RPOL models (in contrast to the SPC/E model), the number of hydration water molecules around Li + is the dominating contributor to the limiting conductance in the higher-density regime. In agreement with the SPC/E model, the interaction strength between Li + and the hydration water molecules is a non-factor in the lower-density region since the potential energy per hydration water molecule decreases with decreasing water density at the lowest water densities. |
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Keywords: | Molecular Dynamics Simulation Li + Ion Polarizable Models Supercritical Conditions |
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