Add to ORKGA mathematical model is presented for thermal transport in nanowires with rectangular cross sections. Expressions for the effective thermal conductivity of the nanowire across a range of temperatures and cross-sectional aspect ratios are obtained by solving the Guyer–Krumhansl hydrodynamic equation for the thermal flux with a slip boundary condition. Our results show that square nanowires transport thermal energy more efficiently than rectangular nanowires due to optimal separation between the boundaries. However, circular nanowires are found to be even more efficient than square nanowires due to the lack of corners in the cross section, which locally reduce the thermal flux and inhibit the conduction of heat. By using a temperature-depende...
International audienceThermal transport properties of amorphous materials at low temperatures are go...
We study the thermal properties of ultra-narrow silicon nanowires (NW) with diameters from 3 nm to 1...
Phonon transport across a non-polar nanowire situated between two semi-infinite contacts is simulate...
A mathematical model is presented for thermal transport in nanowires with rectangular cross sections...
The aim of this work is to analyze the shape dependence of the effective thermal conductivity of nan...
The heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions w...
By using a phonon hydrodynamics model for heat flow complemented with boundary conditions for smooth...
Thermal transport through various nanowires has attracted extensive attention in the past two decade...
International audienceSemiconductor nanowires are potential building blocks for future thermoelectri...
We present an analytical model and molecular-dynamics simulations of the phonon heat transport in na...
In recent years, nanoscale synthesis and processing of materials are developing rapidly. The scienti...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Thermal conductivity of silicon and porous silicon nanowires based on the equation of phonon radiati...
ABSTRACT: The engineering of nanostructured materials with very low thermal conductivity is a necess...
Analytical solution of the Boltzmann transport equation for phonon transport in Bi0.95Sb0.05 nanowir...
International audienceThermal transport properties of amorphous materials at low temperatures are go...
We study the thermal properties of ultra-narrow silicon nanowires (NW) with diameters from 3 nm to 1...
Phonon transport across a non-polar nanowire situated between two semi-infinite contacts is simulate...
A mathematical model is presented for thermal transport in nanowires with rectangular cross sections...
The aim of this work is to analyze the shape dependence of the effective thermal conductivity of nan...
The heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions w...
By using a phonon hydrodynamics model for heat flow complemented with boundary conditions for smooth...
Thermal transport through various nanowires has attracted extensive attention in the past two decade...
International audienceSemiconductor nanowires are potential building blocks for future thermoelectri...
We present an analytical model and molecular-dynamics simulations of the phonon heat transport in na...
In recent years, nanoscale synthesis and processing of materials are developing rapidly. The scienti...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Thermal conductivity of silicon and porous silicon nanowires based on the equation of phonon radiati...
ABSTRACT: The engineering of nanostructured materials with very low thermal conductivity is a necess...
Analytical solution of the Boltzmann transport equation for phonon transport in Bi0.95Sb0.05 nanowir...
International audienceThermal transport properties of amorphous materials at low temperatures are go...
We study the thermal properties of ultra-narrow silicon nanowires (NW) with diameters from 3 nm to 1...
Phonon transport across a non-polar nanowire situated between two semi-infinite contacts is simulate...