Pressure-induced local symmetry breaking upon liquid–liquid transition of GeI4 and SnI4

Abstract: SnI4 and GeI4 have been confirmed to have another liquid state appearing on compression. To identify the microscopic pathway from the low- to high-pressure liquid states, the structure of these liquids in the appropriate thermodynamic regions was analyzed using a reverse Monte Carlo method. The occurrence of pressure-induced symmetry lowering of molecules, from regular tetrahedral to ammonia-like pyramidal symmetry, was then recognizable in these systems. This symmetry lowering is reflected in the change in sh… Show more

“…We did not also consider a small wavenumber region, which may affect the performance of RMC fit unless the precise density is known. Thus, we chose the same lower bound, k 1.5 Å −1 , that has been used for the liquid SnI 4 analysis [15]. Table 1 lists the actual wavenumber region adopted for each S(k).…”

“…The following two paradoxical aspects of SnI 4 molecules regarding the polyamorphic behavior have been posed: while SnI 4 molecules retain their regular tetrahedral symmetry within the CP-I field even close to the melting point and up to the boundary between CP-II [14], they lower symmetry from T d (regular tetrahedral) to C 3v (a regular tetrahedron squashed in one direction) upon the LLT [15]. (Note that the molecular symmetry of C 3v is still compatible with CP-I's crystalline symmetry of Pa 3.…”

The microscopic transition process from high-density to low-density amorphous state of SnI₄

“…We did not also consider a small wavenumber region, which may affect the performance of RMC fit unless the precise density is known. Thus, we chose the same lower bound, k 1.5 Å −1 , that has been used for the liquid SnI 4 analysis [15]. Table 1 lists the actual wavenumber region adopted for each S(k).…”

“…The following two paradoxical aspects of SnI 4 molecules regarding the polyamorphic behavior have been posed: while SnI 4 molecules retain their regular tetrahedral symmetry within the CP-I field even close to the melting point and up to the boundary between CP-II [14], they lower symmetry from T d (regular tetrahedral) to C 3v (a regular tetrahedron squashed in one direction) upon the LLT [15]. (Note that the molecular symmetry of C 3v is still compatible with CP-I's crystalline symmetry of Pa 3.…”

The microscopic transition process from high-density to low-density amorphous state of SnI₄

“…In terms of a specific bond length r, (3) reads as follows: p(r, T) = C 0 (T)r −6 + C 1 (T)r −9 + C 2 (T)r −12 , (A. 1) where the set of temperature-dependent coefficients {C i (T)} are to be determined.…”

“…We have recently revealed that SnI 4 molecules are squashed in one direction upon compression, changing their point symmetry from T d to C 3v , when they experience the pressureinduced liquid-liquid transition [1]. It is then of interest to examine whether such a molecular peculiarity develops below the melting point.…”

Do SnI₄ molecules deform on heating and pressurization in the low-pressure crystalline phase?

“…It is proposed that the CP-II phase belongs to the 𝑃1 ̅ space group and is composed of edge sharing Sn-I octahedrons disposed in a zigzag ribbon along the b-axis. Very recently, an EXAFS study has been published as a function of pressure and temperature up to 9 GPa and 900 K 24 , in the goal of determining a possible deformation of the SnI 4 tetrahedron in the solid phase before the melting, where a transformation from the T d to the C 3v point group has been observed 25 . From these results, the coordination number does not change up to 9 GPa, and the intramolecular distances are in good agreement with the published results 26 , giving a "molecular modulus" of 157 GPa at ambient pressure and temperature.…”

Mechanism of pressure induced amorphization of SnI4: A combined x-ray diffraction—x-ray absorption spectroscopy study