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Literature DB >> 20163124

Temperature dependence of the thermal conductivity of thin silicon nanowires.

Abstract

We compute the lattice thermal conductivity (kappa) of silicon nanowires as a function of temperature by molecular dynamics simulations. In wires with amorphous surfaces kappa may reach values close to that of amorphous silicon and is nearly constant between 200 and 600 K; this behavior is determined by the presence of a majority of nonpropagating vibrational modes. We develop a parameter-free model that accounts for the temperature dependence observed in our simulations and provides a qualitative explanation of recent experiments.

Entities: Chemical

Mesh：

Substances：
Silicon

Year: 2010 PMID： 20163124 DOI： 10.1021/nl903268y

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

9 in total

Temperature dependence of the thermal conductivity of thin silicon nanowires.

1. Reduction of thermal conductivity in phononic nanomesh structures.

2. Thermal conductivity of highly porous Si in the temperature range 4.2 to 20 K.

3. Impact of Phonon Surface Scattering on Thermal Energy Distribution of Si and SiGe Nanowires.

4. Thermal conductivity engineering of bulk and one-dimensional Si-Ge nanoarchitectures.

5. Modeling heat transport in crystals and glasses from a unified lattice-dynamical approach.

6. Enhancing the Thermal Conductivity of Amorphous Carbon with Nanowires and Nanotubes.

7. Strong Surface Orientation Dependent Thermal Transport in Si Nanowires.

8. Ultra-low Thermal Conductivity in Si/Ge Hierarchical Superlattice Nanowire.

9. High Power Thermoelectric Generator Based on Vertical Silicon Nanowires.