期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 931, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2022.167586
关键词
2D material; Seebeck coefficient; Carrier mobility; Thermal conductivity; ZT value
Two-dimensional materials, MgAl2Se4 and MgIn2Se4, possess low thermal conductivity and high electrical properties, showing potential applications in nanoelectronics and thermoelectric devices.
Various two-dimensional (2D) materials possess low thermal conductivity owing to the predominant quantum effects, making them promising candidates for high-performance thermoelectric devices. Herein, we proposed two 2D materials, MgAl2Se4 and MgIn2Se4, exhibiting low cleavage energies of 0.20 Jmiddotm-2 and 0.22 Jmiddotm-2, respectively. They are both direct-gap semiconductors with bandgaps of 1.93 eV and 1.37 eV, respectively. Further, they have a high Seebeck coefficient (0.57-0.87 mVmiddotK-1) and electrical conductivity (106-107 ohm-1middotm-1). Moreover, owing to strong phonon-phonon anharmonic scattering, the monolayers exhibit low intrinsic lattice thermal conductivities of 1.39 W/mmiddotK and 0.54 W/mmiddotK. Consequently, the ZT values of MgAl2Se4 and MgIn2Se4 reach 0.36 and 0.74 at 300 K and rise even further to 2.58 and 3.06 at 700 K, respectively, indicating potential applications in nanoelectronics and thermoelectric devices.(c) 2022 Elsevier B.V. All rights reserved.
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