Structural, stability and thermoelectric properties for the monoclinic phase of NaSbS2 and NaSbSe2: A theoretical investigation

This study is the first attempt towards establishing computational insight into the structural, electronic, mechanical, dynamical and thermoelectric properties of the monoclinic phases of NaSbS 2 and NaSbSe 2 . The mechanical properties are predicted using the Hill approximation. Dynamical stability...

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Bibliographic Details
Published in:The European physical journal. B, Condensed matter physics Condensed matter physics, 2019-09, Vol.92 (9), p.1-15, Article 214
Main Authors: Mahmoud, Mahmoud M. A., Joubert, Daniel P., Molepo, Mahlaga P.
Format: Article
Language:English
Subjects:
Approximation
Boltzmann transport equation
Charge transport
Complex Systems
Condensed Matter Physics
Figure of merit
First principles
Fluid- and Aerodynamics
Heat conductivity
Heat transfer
Lattice vibration
Mathematical analysis
Mechanical properties
Monoclinic lattice
Phonons
Physics
Physics and Astronomy
Regular Article
Room temperature
Solid State Physics
Structural stability
Thermal conductivity
Thermoelectric materials
Transport properties
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Summary:This study is the first attempt towards establishing computational insight into the structural, electronic, mechanical, dynamical and thermoelectric properties of the monoclinic phases of NaSbS 2 and NaSbSe 2 . The mechanical properties are predicted using the Hill approximation. Dynamical stability was investigated by computing the phonon frequency to check for the absence of imaginary modes. Lattice thermal conductivity was calculated by using a single-mode relaxation-time approximation in the linearized phonon Boltzmann equation from first-principles an-harmonic lattice dynamics calculations. We found that the lattice thermal conductivity of NaSbS 2 and NaSbSe 2 are anisotropic, with values ranging between 0.753 and 1.173 Wm −1 K −1 at room temperature (300 K). The calculated values of the lattice thermal conductivity are small, especially along the x -axis. The charge transport properties are predicted using Boltzmann transport equations. The highest values attained for the figure of merit are high as 4.22 and 2.88 when the electron concentration is 10 18 cm −3 at 600 K for NaSbS 2 and NaSbSe 2 , respectively. This highlights the potential of using NaSbS 2 and NaSbSe 2 in designing thermoelectric materials since low lattice thermal conductivity and high figure of merit are a requisite for maximizing the efficiency of thermoelectric materials. Graphical abstract
ISSN:1434-6028
1434-6036
DOI:10.1140/epjb/e2019-90712-y