Experimental and theoretical study of β-As 2 Te 3 under hydrostatic pressure

We report a joint experimental and theoretical high-pressure study of the structural and vibrational properties of tetradymite-like ( R 3̄ m ) β-As 2 Te 3 . Two samples have been characterized by angle-dispersive synchrotron powder X-ray diffraction and Raman scattering measurements under hydrostati...

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Published in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2023-01, Vol.11 (3), p.1037-1055
Main Authors: Vilaplana, R., Gallego-Parra, S., Lora da Silva, E., Martínez-García, D., Delaizir, G., Muñoz, A., Rodríguez-Hernández, P., Cuenca-Gotor, V. P., Sans, J. A., Popescu, C., Piarristeguy, A., Manjón, F. J.
Format: Article
Language:English
Subjects:
Physics
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Summary:We report a joint experimental and theoretical high-pressure study of the structural and vibrational properties of tetradymite-like ( R 3̄ m ) β-As 2 Te 3 . Two samples have been characterized by angle-dispersive synchrotron powder X-ray diffraction and Raman scattering measurements under hydrostatic conditions with the help of ab initio calculations. One sample was synthesized at high pressure and high-temperature conditions with a Paris-Edinburg cell and the other by the melt-quenching technique. Both β-As 2 Te 3 samples show the same properties and exhibit two isostructural phase transitions of order higher than 2, i.e. of electronic origin, near 2.0(2) and 6.0(5) GPa that are compatible with the changes predicted by recent electronic band structure calculations. The first isostructural phase transition can be attributed to the topological quantum phase transition from a trivial insulator to a topological insulator, passing through a 3D Dirac topological semimetal. This topological transition, specific to β-As 2 Te 3 , is not observed in isostructural Te-based sesquichalcogenides α-Sb 2 Te 3 and α-Bi 2 Te 3 that are topological insulators at room conditions. The second isostructural phase transition is likely related to an insulator-metal transition. Additionally, we have observed two partially reversible first-order phase transitions in β-As 2 Te 3 above 10 and 17 GPa. We have found a high anharmonic behavior of the two Raman-active modes with the lowest frequencies in β-As 2 Te 3 that explains the already reported ultra-low lattice thermal conductivity of β-As 2 Te 3 . Moreover, we have studied the similarities of β-As 2 Te 3 with α-Sb 2 Te 3 and α-Bi 2 Te 3 (two of the best thermoelectric materials), thus providing insights into the origin of the ultra-low lattice thermal conductivity values in these compounds related to unconventional chemical bonds present in these isostructural materials.
ISSN:2050-7526
2050-7534
DOI:10.1039/D2TC03357G