Add to ORKGThe heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions with a slip length depending on both temperature and nanowire radius are introduced at the outer boundary. An explicit expression for the effective thermal conductivity is derived and compared to existing models across a given temperature range, providing excellent agreement with experimental data for Si nanowires
We present a model which deepens into the role that normal scattering has on the thermal conductivit...
We study the effect of localized Joule heating on the mechanical properties of doubly clamped nanowi...
International audienceIn the ballistic regime of transport, we derive the thermal resistance of meta...
The heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions w...
A mathematical model is presented for thermal transport in nanowires with rectangular cross sections...
The complexity of heat transport in silicon nanowires (SiNWs) and, specifically, its dependence on t...
Abstract. The effects of nanoscale size dependent parameters on lattice thermal conductivity are cal...
We theoretically predict some thermal properties versus temperature dependence of one dimensional (1...
International audienceAt low temperatures, thermal transport in single crystalline nanowires with su...
ABSTRACT We compute the lattice thermal conductivity (κ) of silicon nanowires as a function of tempe...
The diameter dependence of the thermal conductivity of nanowires is usually modeled using Matthiesse...
By using molecular dynamics simulations, we study thermal conductivity of silicon nanowires (SiNWs) ...
We report indirect measurements of thermal conductivity in silicon nanostructures. We have exploite...
The aim of this work is to analyze the shape dependence of the effective thermal conductivity of nan...
Producción CientíficaPredictive Model for the Thermal Conductivity of Rough and Smooth Silicon Nano...
We present a model which deepens into the role that normal scattering has on the thermal conductivit...
We study the effect of localized Joule heating on the mechanical properties of doubly clamped nanowi...
International audienceIn the ballistic regime of transport, we derive the thermal resistance of meta...
The heat flux across a nanowire is computed based on the Guyer-Krumhansl equation. Slip conditions w...
A mathematical model is presented for thermal transport in nanowires with rectangular cross sections...
The complexity of heat transport in silicon nanowires (SiNWs) and, specifically, its dependence on t...
Abstract. The effects of nanoscale size dependent parameters on lattice thermal conductivity are cal...
We theoretically predict some thermal properties versus temperature dependence of one dimensional (1...
International audienceAt low temperatures, thermal transport in single crystalline nanowires with su...
ABSTRACT We compute the lattice thermal conductivity (κ) of silicon nanowires as a function of tempe...
The diameter dependence of the thermal conductivity of nanowires is usually modeled using Matthiesse...
By using molecular dynamics simulations, we study thermal conductivity of silicon nanowires (SiNWs) ...
We report indirect measurements of thermal conductivity in silicon nanostructures. We have exploite...
The aim of this work is to analyze the shape dependence of the effective thermal conductivity of nan...
Producción CientíficaPredictive Model for the Thermal Conductivity of Rough and Smooth Silicon Nano...
We present a model which deepens into the role that normal scattering has on the thermal conductivit...
We study the effect of localized Joule heating on the mechanical properties of doubly clamped nanowi...
International audienceIn the ballistic regime of transport, we derive the thermal resistance of meta...