Structural diversity in sodium doped water trimers

Richard M Forck,Johannes M Dieterich,Christoph C Pradzynski,Ricardo A Mata,Anna L Huchting,Thomas Zeuch

doi:10.1039/c2cp41066d

Richard M Forck, Johannes M Dieterich + Show 4 more

Open Access

https://doi.org/10.1039/c2cp41066d

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Abstract

The structures of sodium doped water trimers are characterized on the basis of their infrared action spectra in the OH-stretching region and a global optimization approach to identify the lowest energy minima. The most stable structure is an open ring with two contacts of terminal water molecules to the Na atom. This structure explains the dominating feature in the IR depletion spectrum around 3410 cm(-1). Three additional isomer classes were found in an energy window of 12 kJ mol(-1) with vertical ionization energies ranging from ∼3.83 eV to ∼4.36 eV. These structures show different hydrogen bonding and sodium coordination patterns and are identified by specific spectral features in the IR spectra. The significant abundance of closed rings with an external Na atom, resembling the undoped water trimer, suggests that for larger clusters the picture of the sodium atom being situated on the cluster surface seems adequate.

Highlights

The structures of sodium doped water trimers are characterized on the basis of their infrared action spectra in the OH-stretching region and a global optimization approach to identify the lowest energy minima
The significant abundance of closed rings with an external Na atom, resembling the undoped water trimer, suggests that for larger clusters the picture of the sodium atom being situated on the cluster surface seems adequate
Neutral clusters of water and ammonia being doped by a single sodium atom were considered as microsolutions featuring both the solvation of the sodium atom and the emergence of solvated electrons.[1,2,3,4]