基于硅纳米线的能量收集热电装置

2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO) Pub Date : 2017-07-01 DOI:10.1109/NANO.2017.8117487

Kihyun Kim, C. Baek

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引用次数: 0

摘要

研究了直径和掺杂条件对垂直纳米线导热系数的影响。利用CMOS技术制备垂直硅纳米线阵列/自旋玻璃(SOG)复合薄膜，提取垂直纳米线的导热系数。当直径从350 nm减小到190 nm时，导热系数降低约27%。此外，硼掺杂和磷掺杂纳米线的导热系数分别为14.54 Wm−1·K−1和17.15 Wm−1·K−1。掺杂方法可使垂直纳米线的导热系数降低高达70%。因此，高掺杂p型和n型纳米线的硅基热电器件得到了均匀的制备。该装置具有15 mV的塞贝克电压，是一种很有前途的热电发电装置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Silicon nanowire based thermoelectric device for energy harvesting

We investigate the effect of diameter and doping condition on thermal conductivity of vertical nanowires. Vertical silicon nanowire array/spin-on glass (SOG) composite films were fabricated using CMOS technology to extract thermal conductivity of vertical nanowire. The thermal conductivity is reduced by about 27% when diameter is decreased from 350 nm to 190 nm. In addition, boron doped and phosphorus doped nanowires exhibit thermal conductivity of 14.54 Wm−1·K−1 and 17.15 Wm−1·K−1, respectively. Doping method can reduce thermal conductivity of vertical nanowire by up to 70%. Consequently, silicon based thermoelectric devices with highly doped p-type and n-type nanowires were fabricated uniformly. The fabricated devices can be used as a promising thermoelectric power generation and show a Seebeck voltage of 15 mV.

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2017 IEEE 17th International Conference on Nanotechnology (IEEE-NANO)

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