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JOURNAL ARTICLE

Thermal conductivity in porous silicon nanowire arrays

Jeffrey M. WeisseAmy MarconnetDong Rip KimPratap M. RaoMatthew A. PanzerKenneth E. GoodsonXiaolin Zheng

Year: 2012 Journal:   Nanoscale Research Letters Vol: 7 (1)Pages: 554-554   Publisher: Springer Science+Business Media
DOI: 10.1186/1556-276x-7-554
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Abstract

Abstract The nanoscale features in silicon nanowires (SiNWs) can suppress phonon propagation and strongly reduce their thermal conductivities compared to the bulk value. This work measures the thermal conductivity along the axial direction of SiNW arrays with varying nanowire diameters, doping concentrations, surface roughness, and internal porosities using nanosecond transient thermoreflectance. For SiNWs with diameters larger than the phonon mean free path, porosity substantially reduces the thermal conductivity, yielding thermal conductivities as low as 1 W/m/K in highly porous SiNWs. However, when the SiNW diameter is below the phonon mean free path, both the internal porosity and the diameter significantly contribute to phonon scattering and lead to reduced thermal conductivity of the SiNWs.

Keywords:
Thermal conductivity Materials science Nanowire Phonon Porosity Mean free path Porous silicon Nanochemistry Phonon scattering Scattering Composite material Surface roughness Doping Silicon Condensed matter physics Optoelectronics Nanotechnology Optics

Metrics

72
Cited By
2.20
FWCI (Field Weighted Citation Impact)
30
Refs
0.88
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Thermal properties of materials
Physical Sciences →  Materials Science →  Materials Chemistry
Nanowire Synthesis and Applications
Physical Sciences →  Engineering →  Biomedical Engineering
Advanced Thermoelectric Materials and Devices
Physical Sciences →  Materials Science →  Materials Chemistry

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