Electronic structure and transport in the low-temperature thermoelectric CsBi_4Te_6: Semiclassical transport equations

Lars Lykke; Bo B. Iversen; Georg K. H. Madsen

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Electronic structure and transport in the low-temperature thermoelectric CsBi_4Te_6: Semiclassical transport equations

机译：低温热电CsBi_4Te_6中的电子结构和输运：半经典输运方程

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The band structure of the low-temperature thermoelectric material, CsBi_4Te_6, is calculated and analyzed using the semiclassic transport equations. It is shown that to obtain a quantitative agreement with measured transport properties, a band gap of 0.08 eV must be enforced. A gap in reasonable agreement with experiment was obtained using the generalized gradient functional of Engel and Vosko [E. Engel and S. H. Vosko, Phys. Rev. B 47, 13164 (1993)]. We found that the experimental p-type sample has a carrier concentration close to optimal. Furthermore, the conduction bands have a form equally well suited for thermoelectric properties and we predict that an optimally doped n-type compound could have thermoelectric properties exceeding those of the p type.

机译：使用半经典输运方程计算和分析了低温热电材料CsBi_4Te_6的能带结构。结果表明，要获得与测得的输运性质的定量一致性，必须强制使用0.08 eV的带隙。使用恩格尔（Engel）和沃斯科（Vosko）的广义梯度泛函[E.恩格尔（Engel）和S. H. Vosko，物理学Rev.B 47，13164（1993）]。我们发现实验的p型样品的载流子浓度接近最佳。此外，导带具有同样适合热电性质的形式，我们预测最佳掺杂的n型化合物的热电性质可能超过p型。

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《Physical review. B, Condensed Matter And Materials Physics》 |2006年第19期|p.195121.1-195121.6|共6页
作者
Lars Lykke; Bo B. Iversen; Georg K. H. Madsen;
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Department of Chemistry, University of Aarhus, DK-8000 Arhus C, Denmark;

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正文语种 eng
中图分类固体物理学;
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thermoelectric and thermomagnetic effects; surface states; band structure; electron density of states; thermal properties of crystalline solids; fermi surface: calculations and measurements; effective mass; G factor;

机译：热电和热磁效应;表面状态;带结构;态电子密度;结晶固体的热性质;费米表面：计算和测量;有效质量;G因子;

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Electronic structure and transport in the low-temperature thermoelectric CsBi_4Te_6: Semiclassical transport equations

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