The operating temperature of energy conversion and electronic devices affects their efficiency and efficacy. In many devices, however, the reference values of the thermal properties of the materials used are no longer applicable due to processing techniques performed. This leads to challenges in thermal management and thermal engineering that demand accurate predictive tools and high fidelity measurements. The thermal conductivity of strained, nanostructured, and ultra-thin dielectrics are predicted computationally using solutions to the Boltzmann transport equation. Experimental measurements of thermal diffusivity are performed using transient grating spectroscopy. The thermal conductivities of argon, modeled using the Lennard-Jones potent...
Nanostructured materials exhibit low thermal conductivity because of the additional scattering due t...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
<p>The operating temperature of energy conversion and electronic devices affects their efficiency an...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
<p>The thermal conductivities of solid silicon thin films and silicon thin films with periodic pore ...
The thermal conductivities of solid silicon thin films and silicon thin films with periodic pore arr...
International audienceHeat conduction of nanoporous silicon and germanium thin films is studied than...
Comparing with their bulk counterparts, the nanostructured materials provide superior performance in...
The characteristic length of the thin film systems used nowadays in nanoscale thermoelectric and mic...
Fundamental understanding of thermal transport properties in ultrathin Si-based films is essential f...
Fundamental understanding of thermal transport properties in ultrathin Si-based films is essential f...
In the past two decades, phonon transport within nanoporous thin films has attracted enormous attent...
Nanostructured materials exhibit low thermal conductivity because of the additional scattering due t...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
<p>The operating temperature of energy conversion and electronic devices affects their efficiency an...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
<p>The thermal conductivities of solid silicon thin films and silicon thin films with periodic pore ...
The thermal conductivities of solid silicon thin films and silicon thin films with periodic pore arr...
International audienceHeat conduction of nanoporous silicon and germanium thin films is studied than...
Comparing with their bulk counterparts, the nanostructured materials provide superior performance in...
The characteristic length of the thin film systems used nowadays in nanoscale thermoelectric and mic...
Fundamental understanding of thermal transport properties in ultrathin Si-based films is essential f...
Fundamental understanding of thermal transport properties in ultrathin Si-based films is essential f...
In the past two decades, phonon transport within nanoporous thin films has attracted enormous attent...
Nanostructured materials exhibit low thermal conductivity because of the additional scattering due t...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...