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The hydrogen-bond network in sodium chloride tridecahydrate: analogy with ice VI.

Keishiro YamashitaKazuya NakayamaKazuki KomatsuTakashi OhharaKoji MunakataTakanori HattoriAsami Sano-FurukawaHiroyuki Kagi
Published in: Acta crystallographica Section B, Structural science, crystal engineering and materials (2023)
The structure of a recently found hyperhydrated form of sodium chloride (NaCl·13H 2 O and NaCl·13D 2 O) has been determined by in situ single-crystal neutron diffraction at 1.7 GPa and 298 K. It has large hydrogen-bond networks and some water molecules have distorted bonding features such as bifurcated hydrogen bonds and five-coordinated water molecules. The hydrogen-bond network has similarities to ice VI in terms of network topology and disordered hydrogen bonds. Assuming the equivalence of network components connected by pseudo-symmetries, the overall network structure of this hydrate can be expressed by breaking it down into smaller structural units which correspond to the ice VI network structure. This hydrogen-bond network contains orientational disorder of water molecules in contrast to the known salt hydrates. An example is presented here for further insights into a hydrogen-bond network containing ionic species.
Keyphrases
  • computed tomography
  • magnetic resonance imaging
  • visible light
  • network analysis
  • crystal structure