Stefanie Wolf scite author profile

We theoretically investigate thermal conductivity in silicon nanomeshes using Monte Carlo simulations of phonon transport. Silicon membranes of 100nm thickness with randomly located pores of 50nm diameter are considered. The effects of material porosity and pore surface roughness are examined. Nanomesh porosity is found to have a strong detrimental effect on thermal conductivity. At room temperature, a porosity of 50% results in ~80% reduction in thermal conductivity. Boundary roughness scattering further degrades thermal conductivity, but its effect is weaker. Thermal transport can additionally be affected by the specific arrangement of the pores along the transport direction.

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On the ethenolysis of natural rubber and squalene

Wolf

Plenio

2011

Green Chem.

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Monte Carlo Simulations of Thermal Conductivity in Nanoporous Si Membranes

Wolf

Neophytou

Stanojević

et al. 2014

Journal of Elec Materi

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On the ethenolysis of end-of-life tire granulates

Wolf

Plenio

2013

Green Chem.

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Stefanie Wolf

Synthesis of (NHC)Rh(cod)Cl and (NHC)RhCl(CO)2 complexes – Translation of the Rh- into the Ir-scale for the electronic properties of NHC ligands

Thermal conductivity of silicon nanomeshes: Effects of porosity and roughness

On the ethenolysis of natural rubber and squalene

Monte Carlo Simulations of Thermal Conductivity in Nanoporous Si Membranes

On the ethenolysis of end-of-life tire granulates

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