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 Martin; Esteban-Gomez David; Pujales-Paradela Rosa; Caneda-Martinez Laura; de Blas Andres; Platas-Iglesias Carlos

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Water exchange rates and mechanisms in tetrahedral [Be(H2O)(4)](2+) and [Li(H2O)(4)](+) complexes using DFT methods and cluster-continuum models

机译：四面体[Be（H2O）（4）]（2+）和[Li（H2O）（4）]（+）配合物中的水交换速率和机理，采用DFT方法和簇连续模型

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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.

机译：使用[Li（H2O）（4）]（+）14H（2）O和[Be（H2O）（4）]（2+）进行密度泛函理论计算，研究了在Li +和Be2 +离子中的水交换反应。）8H（2）O系统和丛集连续方法。一系列常用功能预测的水交换率比实验值低几个数量级。这种作用归因于这些功能相对于负责缔合性（A）或缔合性交换（I-a）水交换机制的五种协调过渡态，这些功能过于稳定了第四种协调。但是，M06和M062X功能提供的结果与实验数据非常吻合：M062X / TZVP计算得出了在[Be（H2O）（4）]（2+）8H（2）O中进行水交换的协调一致的Ia机制。给出水分子在第一配位域中的平均停留时间为260 s。对于[Li（H2O）（4）]（+）14H（2）O，预计水交换反应遵循A机制，内层水分子的停留时间为25 ps。

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《International Journal of Quantum Chemistry》 |2016年第19期|共9页
作者
Regueiro-Figueroa Martin; Esteban-Gomez David; Pujales-Paradela Rosa; Caneda-Martinez Laura; de Blas Andres; Platas-Iglesias Carlos;
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berylium; density functional calculations; lithium; water exchange;

机译：铍密度泛函计算锂水交换;

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Water exchange rates and mechanisms in tetrahedral [Be(H2O)(4)](2+) and [Li(H2O)(4)](+) complexes using DFT methods and cluster-continuum models

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