Quantum Chemical Studies of the Hydration of Sr2+ in Vacuum and Aqueous Solution

The possible role of the simple dicarbonyls glyoxal and methylglyoxal as electron acceptors in cell growth regulation has long been stressed by A. Szent-GyGrgyi et al..' The reactivity of these carbonyl compounds in water 1 .

Molecular dynamics simulations of clusters of Li q and Be 2q cations with up to 12 water molecules were performed calculating the particle trajectories using Hartree᎐Fock-derived forces. It was found that independent of the starting configuration tetrahedral clusters are obtained in less than 1 ps.

## Abstract ^59^Co chemical shifts were computed at the GIAO‐B3LYP level for [Co(CN)~6~]^3−^, [Co(H~2~O)~6~]^3+^, [Co(NH~3~)~6~]^3+^, and [Co(CO)~4~]^−^ in water. The aqueous solutions were modeled by Car–Parrinello molecular dynamics (CPMD) simulations, or by propagation on a hybrid quantum‐mechan

## Abstract A model of the specific acid‐catalyzed glycosidic bond formation in liquid water at ambient conditions is studied based on constrained Car–Parrinello ab initio molecular dynamics. Specifically the reaction of α‐D‐glucopyranose and methanol is found to proceed by a D~N~A~N~ mechanism. Th