A molecular dynamics study of the solvation of a Na+ ion bound to a PO4H−2 ion

Molecular dynamics simulations have been performed on the collision between a cesium ion and a cluster of twenty methanol molecules. This process, generating a solvated ion, was studied over a range (I to 25 eV> of eight collision energies. Preliminary analysis of this gas phase solvation has includ

Detailed solvation properties of an ammonium ion in polarizable water as a function of the number of water molecules are studied. Extensive molecular dynamics simulations are carried out to compute successive binding enthalpies of the ionic clusters, solvation enthalpies, and structural properties o

The solvation of the mercury(II) ion in solvents with different solvation properties, water, dimethylsulfoxide, N,N-dimethylthioformamide, and liquid ammonia, has been studied by means of 199 Hg NMR. The 199 Hg chemical shift shows a pronounced dependence on the coordination number of the mercury(II

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## Abstract We report a QM augmented QM/MM study on the coordination of the tetrahydroxouranylate ion in aqueous solution. QM/MM geometry optimizations followed by full QM single‐point calculations on the optimized structures show that a hexa‐coordinated structure is more stable than the hepta‐coor

Nanosecond molecular dynamics simulations in a fully solvated phospholipid bilayer have been performed on single transmembrane ␣-helices from three putative ion channel proteins encoded by viruses: NB (from influenza B), CM2 (from influenza C), and Vpu (from HIV-1). ␣-Helix stability is maintained w