2011
DOI: 10.1002/chem.201003226
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Quantum Chemical Studies of the Hydration of Sr2+ in Vacuum and Aqueous Solution

Abstract: The geometric structures of gas-phase Sr(2+) hydrates are calculated quantum chemically by using hybrid (B3LYP) and meta-GGA (TPSS) density functional theory, and a range of thermodynamic data (including sequential bond enthalpies, entropies and free energies for the reactions Sr(2+)(H(2)O)(n-1)+H(2)O→Sr(2+)(H(2)O)(n)) are shown to be in excellent agreement with experiment. When the number of coordinating water molecules exceeds six, such that water begins to occupy the second solvation shell, it is found that… Show more

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Cited by 17 publications
(22 citation statements)
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“…These results are in a good agreement with the previously published theoretical data in which the preferred coordination was seven 13,21 and are at the lower end of the experimental range. We found 6-and 7-coordinated aqua complexes to be energetically very similar (see ESI).…”
Section: Sr 2+ Hydroxide Complexes With a First Solvation Shellsupporting
confidence: 92%
See 1 more Smart Citation
“…These results are in a good agreement with the previously published theoretical data in which the preferred coordination was seven 13,21 and are at the lower end of the experimental range. We found 6-and 7-coordinated aqua complexes to be energetically very similar (see ESI).…”
Section: Sr 2+ Hydroxide Complexes With a First Solvation Shellsupporting
confidence: 92%
“…13 The present calculations were therefore carried out with version 6.5 of the Turbomole code 34 using resolution-of-the-identity density functional theory (RI-DFT). 13 The present calculations were therefore carried out with version 6.5 of the Turbomole code 34 using resolution-of-the-identity density functional theory (RI-DFT).…”
Section: Computational Detailsmentioning
confidence: 99%
“…37 A ND study by Neilson et al 72 of Sr(ClO 4 ) 2 reported a much higher CN of 15 with Sr-O first shell distance of 2.65 Å, however this data was later re-examined in conjunction with an Anomalous X-ray Diffraction (AXD) study to find a lower CN of 9. 71 Various computational methods have been used to evaluate the first shell solvation structure of Sr 2+ including DFT, 73 Quantum Mechanical/Molecular Mechanics (QMMM), 74 QMSTAT 58 as well as MD and AIMD. 41,64,75 A Sr CN of around 8 40,56,64,[76][77][78][79] is typically identified within a range of CNs between 6.7 41 and 9.8 47 and Sr-O distances of 2.58 40 to 2.69.…”
Section: +mentioning
confidence: 99%
“…However, the exact number of water molecules coordinating Ca 2+ is not known in the literature, and theoretical simulations suggest a CN number in the range of 6–8 . Changes in the CN are detected also for Sr 2+ , for which an average CN of 7.3 has been calculated: although not in agreement with the CN of 8 suggested by Marcus, this value is within the range of 6–8 defined by several computational results provided by the literature …”
Section: Resultsmentioning
confidence: 59%