Effect of the Order-Disorder Transition on the Electronic Structure and Physical Properties of Layered CuCrS2

Effect of the Order-Disorder Transition on the Electronic Structure and Physical Properties of Layered CuCrS2

The work reports a comprehensive study of the Seebeck coefficient, electrical resistivity and heat capacity of CuCrS2 in a wide temperature range of 100–740 K. It was shown that the value of the Seebeck coefficient is significantly affected by the sample treatment procedure. The order-to-disorder (O...

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Veröffentlicht in:Materials 2021-05, Vol.14 (11), p.2729
Hauptverfasser: Korotaev, Evgeniy V., Syrokvashin, Mikhail M., Filatova, Irina Yu, Sotnikov, Aleksandr V.
Format: Artikel
Sprache:eng
Schlagworte:
Conductivity
Electrical resistivity
Electronic structure
Heat conductivity
High temperature
Insulators
Metal-insulator transition
Nanostructured materials
Order-disorder transformations
Phase transitions
Physical properties
Scanning electron microscopy
Seebeck effect
Solid solutions
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Zusammenfassung:The work reports a comprehensive study of the Seebeck coefficient, electrical resistivity and heat capacity of CuCrS2 in a wide temperature range of 100–740 K. It was shown that the value of the Seebeck coefficient is significantly affected by the sample treatment procedure. The order-to-disorder (ODT) phase transition was found to cause a metal-insulator transition (MIT). It was established that the ODT diminishes the Seebeck coefficient at high temperatures (T > 700 K). The DFT calculations of the CuCrS2 electronic structure showed that the localization of copper atoms in octahedral sites makes the band gap vanish due to the MIT. The decrease of CuCrS2 electrical resistivity in the ODT temperature region corresponds to the MIT.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma14112729