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Thermoelectric properties of 2D semiconducting Pt <sub>2</sub> CO <sub>2</sub>

Xiao‐Ping Wei, Jing Shen, Lan-Lan Du, Wen‐Li Chang, Xiaoma Tao

2022Physica Scripta25 citationsDOIOpen Access PDF

Abstract

Abstract Quantum confinement effect in 2D materials leads to the reduction of the degree of freedom of space and the weakening of the correlation between the thermoelectric factors. Only by adjusting a certain physical quantity can optimized the thermoelectric performance. MXenes as a new class of 2D material have attracted widely attention due to their good mechanical and chemical stability, controllable layer thickness, easily functionalized surface and excellent electrical conductivity. In the present paper, using first-principles calculations, we design and study the stability, electronic and thermoelectric properties of 2D monolayer Pt 2 CO 2 . Results show that the Pt 2 CO 2 is a new non-magnetic semiconductor, and can bear its own weight, and maintain its free-standing planar structure without substrate support. Futher, the stable calculations indicate that the Pt 2 CO 2 meets thermodynamic, mechanical and dynamic stabilities. Finally, using the Boltzmann transport theory combined with Slack model, we calculate the Seebeck coefficient S , electrical conductivity σ / τ , and the thermal conductivity κ , and then obtain the ZT value from 300 K to 1000 K. It is found that the largest ZT value closes to 1.05 at 1000 K, implying the Pt 2 CO 2 potential application as thermoelectric material.

Topics & Concepts

Thermoelectric effectMaterials scienceMXenesThermal conductivityThermoelectric materialsSeebeck coefficientBoltzmann constantSemiconductorElectrical resistivity and conductivityCondensed matter physicsThermodynamicsNanotechnologyOptoelectronicsComposite materialPhysicsQuantum mechanicsMXene and MAX Phase Materials2D Materials and ApplicationsAdvanced Thermoelectric Materials and Devices
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