Thermally Induced Phase Transition of Cubic Structure II Hydrate: Crystal Structures of Tetrahydropyran-CO 2 Binary Hydrate.
Satoshi TakeyaHiroshi FujihisaSaman AlaviRyo OhmuraPublished in: The journal of physical chemistry letters (2023)
We report a thermally induced phase transition of cubic structure II hydrates of tetrahydropyran (THP) and CO 2 below about 140 K. The phase transition was characterized by powder X-ray diffraction measurements at variable temperatures. A dynamical ordering of the CO 2 guests in small pentagonal dodecahedral 5 12 host water cages, not previously observed in the simple CO 2 hydrate, occurs simultaneously with the symmetry lowering transition from a cubic structure II (space group Fd -3 m with cell dimensions a = 17.3202(7) Å at 153 K) to a tetragonal (space group I 4 1 / amd with cell dimensions a = 17.484(4) Å and c = 12.145(1) Å at 138 K) unit cell. The effect of guest molecules on the phase transition at low temperatures is discussed, which demonstrates that the clathrate hydrate structures and thermodynamic properties can be modified by adjusting the size and chemical structure of larger and smaller guest molecules.