超薄金属薄膜中的热和电传导：7nm 至亚纳米厚度。

Thermal and electrical conduction in ultrathin metallic films: 7 nm down to sub-nanometer thickness.

机构信息

Department of Mechanical Engineering, Iowa State University, 2010 Black Engineering Building, Ames, Iowa 50011, USA.

出版信息

Small. 2013 Aug 12;9(15):2585-94. doi: 10.1002/smll.201202877. Epub 2013 Feb 22.

DOI:10.1002/smll.201202877

Abstract

For ultrathin metallic films (e.g., less than 5 nm), no knowledge is yet available on how electron scattering at surface and grain boundaries reduces the electrical and thermal transport. The thermal and electrical conduction of metallic films is characterized down to 0.6 nm average thickness. The electrical and thermal conductivities of 0.6 nm Ir film are reduced by 82% and 50% from the respective bulk values. The Lorenz number is measured as 7.08 × 10⁻⁸ W Ω K⁻², almost a twofold increase of the bulk value. The Mayadas-Shatzkes model is used to interpret the experimental results and reveals very strong electron reflection (>90%) at grain boundaries.

摘要

对于超薄金属薄膜（例如，小于 5nm），目前还不清楚表面和晶界处的电子散射如何降低其电输运和热输运。我们对金属薄膜的热输运和电输运特性的研究已经深入到平均厚度 0.6nm 的程度。0.6nm 厚的铱薄膜的电导率和热导率分别比体相值降低了 82%和 50%。测量得到的洛伦兹数为 7.08×10⁻⁸WΩK⁻²，几乎是体相值的两倍。我们使用 Mayadas-Shatzkes 模型来解释实验结果，该模型表明晶界处的电子反射非常强（>90%）。

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超薄金属薄膜中的热和电传导：7nm 至亚纳米厚度。

Thermal and electrical conduction in ultrathin metallic films: 7 nm down to sub-nanometer thickness.

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