Add to ORKGAbstract. We have theoretically studied the influence of the nanostructure cladding materials on the phonon thermal conduction in the Si-based planar heterostructures and rectangular hetero-nanowires. The phonon energy spectra were obtained in the framework of the face-centered cell-dynamic lattice model. Using this model we have shown that the nanostructure claddings with the low sound velocity decrease the phonon group velocities and thermal conductivity in the nanostructures, while the claddings with high sound velocities have the opposite effect. The described modification of the thermal conductivity of the semiconductor nano- and heterostructures may have important consequences for electronic industry in a view of continuing miniaturiz...
Phonons manifest themselves in all electrical, thermal, optical and noise phenomena in semiconduct...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
Comparing with their bulk counterparts, the nanostructured materials provide superior performance in...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
We study the effect of confinement on the phonon properties of ultra-narrow silicon nanowires of sid...
This work investigates theoretically the phonon property and thermal conductivity of rectangular sil...
Understanding the design rules to obtain materials that enable a tight control of phonon transport o...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
We present an analytical model and molecular-dynamics simulations of the phonon heat transport in na...
The phenomenon of thermoelectric energy conversion holds great promise in harvesting wasted heat and...
Understanding electron and phonon transport in silicon nanostructures is essential for developing ad...
International audienceWe present a rigorous analysis of the thermal conductivity of bulk silicon (Si...
In this paper, we analyze cross plane phonon transport and thermal conductivity in two-dimensional S...
Thermal conductivity of thin silicon nanowires (1.4−8.3 nm) including the realistic crystalline stru...
Phonons manifest themselves in all electrical, thermal, optical and noise phenomena in semiconduct...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
Comparing with their bulk counterparts, the nanostructured materials provide superior performance in...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
We study the effect of confinement on the phonon properties of ultra-narrow silicon nanowires of sid...
This work investigates theoretically the phonon property and thermal conductivity of rectangular sil...
Understanding the design rules to obtain materials that enable a tight control of phonon transport o...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
We present an analytical model and molecular-dynamics simulations of the phonon heat transport in na...
The phenomenon of thermoelectric energy conversion holds great promise in harvesting wasted heat and...
Understanding electron and phonon transport in silicon nanostructures is essential for developing ad...
International audienceWe present a rigorous analysis of the thermal conductivity of bulk silicon (Si...
In this paper, we analyze cross plane phonon transport and thermal conductivity in two-dimensional S...
Thermal conductivity of thin silicon nanowires (1.4−8.3 nm) including the realistic crystalline stru...
Phonons manifest themselves in all electrical, thermal, optical and noise phenomena in semiconduct...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
Comparing with their bulk counterparts, the nanostructured materials provide superior performance in...