Issue 41, 2016
From the journal:

Nanoscale

Thermal conductivity of individual silicon nanoribbons

Lin Yang, ORCID logo a   Yang Yang,a   Qian Zhang, ORCID logo a   Yin Zhang,ac   Youfei Jiang,b   Zhe Guan,b   Matthew Gerboth,a   Juekuan Yang,c   Yunfei Chen,c   D. Greg Walker,a   Terry T. Xub  and  Deyu Li*a  

* Corresponding authors

a Department of Mechanical Engineering, Vanderbilt University, Nashville, TN 37235, USA
E-mail: deyu.li@vanderbilt.edu

b Department of Mechanical Engineering and Engineering Science, The University of North Carolina at Charlotte, Charlotte, NC 28223, USA

c School of Mechanical Engineering and Jiangsu Key Laboratory for Design and Manufacture of Micro-Nano Biomedical Instruments, Southeast University, Nanjing, P. R. China

Abstract

The thermal conductivities of two groups of silicon nanoribbons of ∼20 and ∼30 nm thickness and various widths have been measured and analyzed through combining the Callaway model and the Fuchs–Sondheimer (FS) reduction function. The results show that while the data for the ∼30 nm thick ribbons can be well-explained by the classical size effect, the measured thermal conductivities for the ∼20 nm thick ribbons deviate from the prediction remarkably, and size effects beyond phonon-boundary scattering must be considered. The measurements of the Young's modulus of the thin nanoribbons yield significantly lower values than the corresponding bulk value, which could lead to a reduced phonon group velocity and subsequently thermal conductivity. This study helps to build a regime map for thermal conductivity versus nanostructures’ surface-area-to-volume ratio that clearly delineates two regions where size effects beyond the Casimir limit are important or not important.

Graphical abstract: Thermal conductivity of individual silicon nanoribbons

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Article information

DOI
https://doi.org/10.1039/C6NR06302K
Article type
Paper
Submitted
08 Aug 2016
Accepted
22 Sep 2016
First published
23 Sep 2016

Nanoscale, 2016,8, 17895-17901

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Thermal conductivity of individual silicon nanoribbons

L. Yang, Y. Yang, Q. Zhang, Y. Zhang, Y. Jiang, Z. Guan, M. Gerboth, J. Yang, Y. Chen, D. Greg Walker, T. T. Xu and D. Li, Nanoscale, 2016, 8, 17895 DOI: 10.1039/C6NR06302K

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