The spectroscopic signature of the "all-surface" to "internally solvated" structural transition in water clusters in the n=17-21 size regime -: art. no. 194310

The existence of a transitional size regime where preferential stabilization alternates between "all-surface" (all atoms on the surface of a cluster) and "internally solvated" (one water molecule at the center of the cluster, fully solvated) configurations with the addition or the removal of a single water molecule, predicted earlier with the flexible, polarizable (many-body) Thole-type model interaction potential (TTM2-F), has been confirmed from electronic structure calculations for (H2O)(n), n=17-21. The onset of the appearance of the first "interior" configuration in water clusters occurs for n=17. The observed structural alternation between interior (n=17, 19, 21) and all-surface (n=18, 20) global minima in the n=17-21 cluster regime is accompanied by a corresponding spectroscopic signature, namely, the undulation in the position of the most redshifted OH stretching vibrations according to the trend: interior configurations exhibit more redshifted OH stretching vibrations than all-surface ones. These most redshifted OH stretching vibrations form distinct groups in the intramolecular region of the spectra and correspond to localized vibrations of donor OH stretches that are connected to neighbors via "strong" (water dimer-like) hydrogen bonds,and belong to a water molecule with a "free" OH stretch. (c) 2005 American Institute of Physics.