Transport Properties of Superlattice Nanowires and Their Potential for Thermoelectric Applications

机译：超晶格纳米线的传输特性及其在热电应用中的潜力

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A theoretical model for the electronic structure and transport properties of superlattice (SL) nanowires is presented, based on the electronic tunneling between quantum dots. Due to the periodic potential perturbation, SL nanowires exhibit unusual features in the electronic density of states that are absent in homogeneous nanowires. Transport property calculations of PbSe/PbS SL nanowires are presented, showing improved thermoelectric performance compared to homogeneous nanowires because of a lower lattice thermal conductivity and an enhanced Seebeck coefficient, indicating that SL nanowires are promising systems for thermoelectric applications.

机译：基于量子点之间的电子隧穿，提出了超晶格（SL）纳米线的电子结构和传输特性的理论模型。由于周期性的电势扰动，SL纳米线在均质纳米线中不存在的状态的电子密度中表现出不同寻常的特征。提出了PbSe / PbS SL纳米线的传输性质计算，由于较低的晶格热导率和更高的塞贝克系数，与均质纳米线相比，其热电性能得到了改善，这表明SL纳米线是有前途的热电应用系统。

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《Symposium on Quantum Confined Semiconductor Nanostructures Dec 2-5, 2002 Boston, Massachusetts, U.S.A.》|2002年|p.233-238|共6页
会议地点 Boston MA(US);Boston MA(US)
作者
Yu-Ming Lin; Mildred S. Dresselhaus;
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作者单位

Department of Electrical Engineering and Computer Science;

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会议组织
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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Transport Properties of Superlattice Nanowires and Their Potential for Thermoelectric Applications

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