Crystals (Dec 2021)

Exploring High-Pressure Transformations in Low-Z (H<sub>2</sub>, Ne) Hydrates at Low Temperatures

  • Paulo H. B. Brant Carvalho,
  • Amber Mace,
  • Inna Martha Nangoi,
  • Alexandre A. Leitão,
  • Chris A. Tulk,
  • Jamie J. Molaison,
  • Ove Andersson,
  • Alexander P. Lyubartsev,
  • Ulrich Häussermann

DOI
https://doi.org/10.3390/cryst12010009
Journal volume & issue
Vol. 12, no. 1
p. 9

Abstract

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The high pressure structural behavior of H2 and Ne clathrate hydrates with approximate composition H2/Ne·~4H2O and featuring cubic structure II (CS-II) was investigated by neutron powder diffraction using the deuterated analogues at ~95 K. CS-II hydrogen hydrate transforms gradually to isocompositional C1 phase (filled ice II) at around 1.1 GPa but may be metastably retained up to 2.2 GPa. Above 3 GPa a gradual decomposition into C2 phase (H2·H2O, filled ice Ic) and ice VIII’ takes place. Upon heating to 200 K the CS-II to C1 transition completes instantly whereas C1 decomposition appears sluggish also at 200 K. C1 was observed metastably up to 8 GPa. At 95 K C1 and C2 hydrogen hydrate can be retained below 1 GPa and yield ice II and ice Ic, respectively, upon complete release of pressure. In contrast, CS-II neon hydrate undergoes pressure-induced amorphization at 1.9 GPa, thus following the general trend for noble gas clathrate hydrates. Upon heating to 200 K amorphous Ne hydrate crystallizes as a mixture of previously unreported C2 hydrate and ice VIII’.

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