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Paper detail

Electron Delocalization Determined Anomalous Stability in Small Water Rings

Water clusters are known to form through hydrogen bonding. However, this study shows that the formation of very small water clusters significantly deviates from this mechanism and instead involves both hydrogen bonding and electron delocalization. Our density functional theory calculations show that small water rings (H2O)n of n=3 or 4 show strong electron delocalization originating from both the hydrogen and oxygen atoms and extending to the ring center. This is very different from larger rings. Further energy decomposition of rings with n=3-6 demonstrates an upward trend in the polarization component but an decrease in the electrostatic and exchange repulsion components, presenting a minimum and accounting for 33% of interaction energy at n=3. This significantly promotes stability of the small water rings. Our findings provide a comprehensive analysis and improve our understanding of the stability characteristics of water clusters.

preprint2013arXivOpen access
Bo WangMinsi XinXing DaiRuixia SongYan MengZhigang WangRuiqin Zhang
physics.atm-clusphysics.chem-ph
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Bo WangMinsi XinXing DaiRuixia SongYan MengZhigang WangRuiqin Zhang

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