Computational predictions of stable phase for antiperovskite Na 3OCl via tilting of Na 6O octahedra

We study the structural stability of crystalline Na 3OCl in terms of cohesive energies and phonon spectra through the tilting of Na 6O octahedra. We prove that the crystal Na 3OCl can be stabilized through octahedral tilts by comparing 14 tilted structures that are consistent with the Howard and Sto...

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Bibliographic Details
Published in:Journal of applied physics 2018-10, Vol.124 (16)
Main Authors: Pham, Tan-Lien, Samad, Abdus, Kim, Hye Jung, Shin, Young-Han
Format: Article
Language:English
Online Access:Get full text
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Summary:We study the structural stability of crystalline Na 3OCl in terms of cohesive energies and phonon spectra through the tilting of Na 6O octahedra. We prove that the crystal Na 3OCl can be stabilized through octahedral tilts by comparing 14 tilted structures that are consistent with the Howard and Stokes’ group-theoretical analysis of the octahedral tilting in perovskites. We found that all the 14 tilted structures of Na 3OCl have lower energies than the cubic Pm 3 ¯m structure by about 11 to 16 meV per five-atom unit cell. The tilt angles along the pseudocubic [100], [010], and [001] directions vary in the range of 2.6 °–9.3 °. While the Pnma and P2 1/m structures of Na 3OCl are found as the two most stable ones, only the P2 1/m phase has stable phonon vibrations with a direct band gap of 3.38 eV at the Γ point.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.5047833