Abstract
Water cluster complexes with a group 1 metal atom, M(H2O)n (M = Li and Na), for n = 3−6 were studied with ab initio MO methods. The singly occupied molecular orbitals (SOMOs) are classified into three types: surface, quasi-valence, and semi-internal. It is the isomers of structures with semiinternal SOMO that are responsible for the observed convergence of the ionization threshold energy. They are the ion-pair complexes, M+(H2O)m·(H2O)l· , and their vertical ionization energies (VIEs) are determined by the local structure of and the electrostatic potential from the cation M+(H2O)m. The model also explains why the experimental ionization threshold energy converges at n = 4.
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