Modelling thermoelectric transport in III-V nanowires using a Boltzmann transport approach: a review

Ghukasyan Ara; LaPierre Ray R.

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Modelling thermoelectric transport in III-V nanowires using a Boltzmann transport approach: a review

机译：使用Boltzmann运输方法模拟III-V纳米线的热电传输：综述

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A review of models for determining the thermoelectric transport coefficients S (Seebeck coefficient), sigma (electrical conductivity), and kappa e (electronic thermal conductivity) is presented, for the cases of bulk and nanowire structures, along with derivations and a discussion of calculation methods. Results for the transport coefficients in GaAs, InAs, InP and InSb are used to determine the thermoelectric figure of merit, where an enhancement by two orders of magnitude is found for the nanowire case as compared with the bulk. The optimal electron concentration is determined as a function of nanowire diameter for both background and modulation doped nanowires.

机译：本文综述了在体结构和纳米线结构的情况下，确定热电输运系数S（塞贝克系数）、sigma（电导率）和kappa e（电子热导率）的模型，以及推导和计算方法的讨论。GaAs、InAs、InP和InSb中的输运系数的结果用于确定热电优值系数，其中纳米线情况下的热电优值比体情况下的热电优值提高了两个数量级。对于背景掺杂和调制掺杂的纳米线，最佳电子浓度是纳米线直径的函数。

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《Nanotechnology》 |2021年第4期|共18页
作者
Ghukasyan Ara; LaPierre Ray R.;
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作者单位

McMaster Univ Dept Engn Phys Hamilton ON L8S 4L7 Canada;

McMaster Univ Dept Engn Phys Hamilton ON L8S 4L7 Canada;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
thermoelectric; Boltzmann; transport; nanowire;

机译：热电;玻尔兹曼;运输纳米线;

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Modelling thermoelectric transport in III-V nanowires using a Boltzmann transport approach: a review

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