Keywords: 
• hydration /
• hydrolysis /
• zinc ion /
• quantum chemical calculation

Abstract: Optimal geometries, charge distributions, changes of Gibbs free energy, entropie s and enthalpies of hydration and hydrolysis reactions for mononuclear speci es of Zn2+ including hydrated and hydrolysis complexes were investigat ed in the gas phase using quantum chemical calculations. The coordination number of hydrolysis complexes of zinc was less than 6 except hydrated ion. For the hi gh degree of hydrolysis products, Zn(OH)3- and Zn( OH)42-,there were no water molecules in the inner-sphere. Hydra tion and hydrolysis processes restrained each other. Hydration made hydrolysis p roducts (except Zn(OH)2) difficult to hydrolyze further, while hydrolysis process cumbered hydration reaction. The increase of the inner -sphere water molecules decreased the charge of Zinc for hydrated ions whil e increased the charge of zinc for hydrolysis complexes. The results are importa nt to understand aquatic environmental behaviors of zinc.