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| Home > Publications database > Structural transition and emission enhancement in vacancy-ordered halide double perovskite Cs$_2$TeCl$_6$ under pressure |
| Journal Article | PUBDB-2025-04343 |
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2025
American Inst. of Physics
Melville, NY
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Please use a persistent id in citations: doi:10.1063/5.0258183 doi:10.3204/PUBDB-2025-04343
Abstract: The effect of pressure on the structural evolution, the enhancement of the photoluminescence intensity, and the optical bandgap of a vacancy-ordered double halide perovskite, Cs2TeCl6, is investigated systematically. We use synchrotron x-ray diffraction, Raman spectroscopy, optical bandgap, and photoluminescence measurements to explore the structural and optical properties of Cs2TeCl6 under pressure up to 30.0 GPa. We find that Cs2TeCl6 undergoes a structural transition from cubic Fm m to monoclinic P21/n at very low pressure below 1.0 GPa. A significant increase in photoluminescence intensity and a rapid decrease in optical bandgap are observed, which are related to the octahedral distortion and structural transition. Interestingly, with increasing pressure, the sample regains its ambient Fm m structure at around 3.4 GPa, maintaining the cubic phase up to 30.0 GPa. The sample undergoes an iso-structural transition at around 14.1 GPa pressure with a slight decrease in compressibility.
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