由硅纳米线制成的热电球(演示记录)

SPIE NanoScience + Engineering Pub Date : 2015-10-05 DOI:10.1117/12.2192445

Kate J. Norris, G. Tompa, N. Sbrockey, N. Kobayashi

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引用次数: 0

摘要

尽管半导体线具有独特的性能，可以使一系列器件受益，但在器件中实现生长线带来了挑战，特别是对于那些需要大体积的器件(例如热电(TE)器件)。因此，将亚微米尺度的电线组装成厘米尺度的结构将开辟新的模块架构。在本文中，TE器件将以颗粒(直径~1cm)的形式由聚集的硅(Si)线制成。许多硅线被组装成一个三维网络，其尺寸由石英安瓿定义。在~80℃的工作温度下进行了发电试验，在~800℃的工作温度下进行了性能推广。

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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Thermoelectric pellets made of Si nanowires (Presentation Recording)

Although semiconductor wires exhibit unique properties that would benefit a range of devices, implementation of as-grown wires in a device brings challenges, in particular, for those that require large volume (e.g. thermoelectric (TE) devices). Therefore, a post-growth assembly of sub-micrometer-scale wires into a centimeter-scale structure would open new module architecture. In this paper, TE devices in the form of pellet (~1cm diameter) made of aggregated silicon (Si) wires will be described. Numerous Si wires were assembled into a 3D network with dimensions defined by a quartz ampule. Power generation was demonstrated at operational temperatures ~80°C and the performance was generalized for higher operational temperatures ~800°C.

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SPIE NanoScience + Engineering

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