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Si2Ge: A New VII-Type Clathrate with Ultralow Thermal Conductivity and High Thermoelectric Property

Jinni Shen, Tianzhu Xie, Longkun Zhang, Ping Wang, Zhenxing Fang

2020Scientific Reports23 citationsDOIOpen Access PDF

Abstract

Abstract Based on global particle-swarm optimization algorithm and density functional theory methods, we predicted an alloyed Si 2 Ge compond with body centered tetragonal type VII clathrate (space group I 4/mmm) built by a truncated octahedron fromed by six quadrangles and eight hexagons ([4 6 6 8 ]). Si 2 Ge clathrate is 0.06 eV/atom lower than VII Si clathrate and thermally stable up to 1000 K. It has an indirect band gap of 0.23 eV, high p-doping Seebeck coefficient and n-doping electrical conductivity. It owns a low lattice thermal conductivity of 0.28 W/mK at 300 K because of its weak bonding and strong anharmonic interaction of longitudinal acoustic and low-lying optical phonons. The moderate electronic transport properties together with low lattice thermal conductivity results in a high optimal thermoeletric performance value of 2.54 (1.49) at 800 (1000) K in n (p)-doped Si 2 Ge.

Topics & Concepts

Clathrate hydrateTetragonal crystal systemThermoelectric effectThermal conductivitySeebeck coefficientPhononAnharmonicityMaterials scienceDopingCondensed matter physicsDensity functional theoryBand gapChemistryCrystal structurePhysicsCrystallographyComputational chemistryThermodynamicsHydrateComposite materialOrganic chemistryAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Expansion and Ionic Conductivity
Si2Ge: A New VII-Type Clathrate with Ultralow Thermal Conductivity and High Thermoelectric Property | Litcius