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Thermal conductivity and phonon anharmonicity of chemical vapor transport grown and mineral–FeS 2 single crystals: An optothermal Raman study
Author(s) -
Özden Ayberk,
ZuñigaPuelles Esteban,
Kortus Jens,
Gumeniuk Roman,
Himcinschi Cameliu
Publication year - 2023
Publication title -
journal of raman spectroscopy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.748
H-Index - 110
eISSN - 1097-4555
pISSN - 0377-0486
DOI - 10.1002/jrs.6456
Subject(s) - anharmonicity , raman spectroscopy , thermal conductivity , phonon , analytical chemistry (journal) , raman scattering , phonon scattering , pyrite , materials science , chemistry , mineralogy , conductivity , condensed matter physics , optics , physics , chromatography , composite material
In this work, thermal conductivity and anharmonic properties of chemical vapor transport (CVT)‐grown pyrite‐FeS 2 and mineral single crystals have been investigated and compared. It has been shown that optothermal Raman technique is able to capture the large thermal conductivity difference between the CVT and mineral samples at low temperatures. This difference is attributed to point defects such as sulfur vacancies or impurity doping of CVT‐grown FeS 2 crystals. Balkanski–Klemens model analysis of the samples has shown that three‐phonon scattering of A g and E g modes and the lattice thermal expansion are the dominant anharmonic contributors while four‐phonon scattering is negligible in pyrite‐FeS 2 . Thus, thermal conductivity of materials that is difficult to measure by conventional methods (i.e., flash method) can be measured in their most native form by using optothermal Raman spectroscopy (RS) without rigorous sample preparation.