Water exchange rates and mechanisms in tetrahedral [Be(H2O)(4)](2+) and [Li(H2O)(4)](+) complexes using DFT methods and cluster-continuum models
Regueiro-Figueroa M, Esteban-Gomez D, Pujales Paradela R, Caneda-Martínez L, de Blas A, Platas-Iglesias C (2016)
Publication Status: Published
Publication Type: Journal article
Publication year: 2016
Journal
Publisher: WILEY
Book Volume: 116
Pages Range: 1388-1396
Journal Issue: 19
DOI: 10.1002/qua.25191
Abstract
The water exchange reactions in aquated Li+ and Be2+ ions were investigated with density functional theory calculations performed using the [Li(H2O)(4)](+)14H(2)O and [Be(H2O)(4)](2+)8H(2)O systems and a cluster-continuum approach. A range of commonly used functionals predict water exchange rates several orders of magnitude lower than the experimental ones. This effect is attributed to the overstabilization of coordination number four by these functionals with respect to the five-coordinated transition states responsible for the associative (A) or associative interchange (I-a) water exchange mechanisms. However, the M06 and M062X functionals provide results in good agreement with the experimental data: M062X/TZVP calculations yield a concerted I-a mechanism for the water exchange in [Be(H2O)(4)](2+)8H(2)O that gives an average residence time of water molecules in the first coordination sphere of 260 s. For [Li(H2O)(4)](+)14H(2)O the water exchange reaction is predicted to follow an A mechanism with a residence time of inner-sphere water molecules of 25 ps.
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APA:
Regueiro-Figueroa, M., Esteban-Gomez, D., Pujales Paradela, R., Caneda-Martínez, L., de Blas, A., & Platas-Iglesias, C. (2016). Water exchange rates and mechanisms in tetrahedral [Be(H2O)(4)](2+) and [Li(H2O)(4)](+) complexes using DFT methods and cluster-continuum models. International Journal of Quantum Chemistry, 116(19), 1388-1396. https://dx.doi.org/10.1002/qua.25191
MLA:
Regueiro-Figueroa, Martín, et al. "Water exchange rates and mechanisms in tetrahedral [Be(H2O)(4)](2+) and [Li(H2O)(4)](+) complexes using DFT methods and cluster-continuum models." International Journal of Quantum Chemistry 116.19 (2016): 1388-1396.
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