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“Structure Breaking” Effect of Hydrated Cs +

2004; American Chemical Society; Volume: 108; Issue: 9 Linguagem: Inglês

10.1021/jp037179v

1520-5215

Christian F. Schwenk, Thomas S. Hofer, Bernd M. Rode,

Molecular Spectroscopy and Structure

Structural and dynamical properties of the hydrated Cs+ ion have been investigated by performing ab initio quantum mechanical/molecular mechanical (QM/MM) molecular dynamics (MD) simulations at different quantum mechanical levels (HF, B3LYP and BP86). The first shell coordination number was found to be ∼8 in the HF and ∼9 in the B3LYP and BP86 case and several other structural parameters such as angular distribution functions, radial distribution functions, and tilt- and θ-angle distributions allowed to fully characterize the hydration structure of the Cs+ ion. Velocity autocorrelation functions were used to calculate librational and vibrational motions, ion−ligand motions, as well as reorientation times. The strong "structure breaking" effect of Cs+ can be interpreted on the basis of different dynamical parameters such as accelerated water reorientation, mean ligand residence time, and the number of ligand exchange processes.