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Ikeda, Takashi; Boero, M.*; Terakura, Kiyoyuki*
no journal, ,
We studied the solvation structures of the divalent metal cations Mg and Ca in ambient water by applying a Car-Parrinello-based constrained molecular dynamics method. By employing the metal-water oxygen coordination number as a reaction coordinate, we could identify distinct aqua complexes characterized by structural variations of the first coordination shell. In particular, our estimated free-energy profile clearly shows that the global minimum for Mg is represented by a rather stable six-fold coordination in the octahedral arrangement, in agreement with experiments. Conversely, for Ca the free-energy curve shows several shallow local minima, suggesting that the hydration structure of Ca is highly variable. Implications for water exchange reactions are also discussed.