Characterization and decomposition of the natural van der Waals heterostructure SnSb2Te4 under compression
Juan A. Sans, Rosario Vilaplana, E. Lora Da Silva, Catalin Popescu,, Vanesa P. Cuenca-Gotor, Adri\'an Andrada-Chac\'on, Javier S\'anchez-Benitez,, Oscar Gomis, Andr\'e L. J. Pereira, Pl\'acida Rodr\'iguez-Hern\'andez,, Alfonso Mu\~noz, Dominik Daisenberger

TL;DR
This study combines experimental and theoretical methods to analyze the structural, vibrational, and electrical properties of SnSb2Te4 under high pressure, revealing phase transitions, vibrational modes, and decomposition behavior relevant to topological insulators.
Contribution
It provides a comprehensive characterization of SnSb2Te4 under compression, including phase transitions and vibrational properties, and introduces new criteria for identifying metavalent bonding in complex materials.
Findings
Identifies an isostructural phase transition around 2 GPa.
Detects a Fermi resonance near 3.5 GPa.
Shows pressure-induced decomposition above 7 GPa.
Abstract
This joint experimental and theoretical study of the structural, vibrational and electrical properties of rhombohedral SnSb2Te4 at high pressure unveils the internal mechanisms of its compression. The equation of state and the internal polyhedral compressibility, the symmetry and behavior of the Raman-active modes and the electrical behavior of this topological insulator under compression have been discussed and compared with the parent binary alpha-Sb2Te3 and SnTe compounds and with related ternary compounds. Our X-ray diffraction and Raman measurements together with theoretical calculations, which include topological electron density and electronic localization function analysis, evidence the presence of an isostructural phase transition around 2 GPa and a Fermi resonance around 3.5 GPa. The Raman spectrum of SnSb2Te4 shows vibrational modes that are forbidden in rocksalt SnTe; thus…
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Taxonomy
TopicsTopological Materials and Phenomena · Boron and Carbon Nanomaterials Research · 2D Materials and Applications
