Add to ORKGRecent experiments have demonstrated that thermal properties of semiconductor nanostructures depend on nanostructure boundary geometry. Phonons are quantized mechanical vibrations that are the dominant carrier of heat in semiconductor materials and their aggregate behavior determine a nanostructure\u27s thermal performance. Phonon-geometry scattering processes as well as waveguiding effects which result from coherent phonon interference are responsible for the shape dependence of thermal transport in these systems. Nanoscale phonon-geometry interactions provide a mechanism by which nanostructure geometry may be used to create materials with targeted thermal properties. However, the ability to manipulate material thermal properties via contr...
Abstract. We have theoretically studied the influence of the nanostructure cladding materials on the...
textThis dissertation is focused on thermal transport at nanometer scale point and line constriction...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Nano-scale thermal conduction has been an interesting research topic over the past two decades due t...
The nature of the surface roughness of electrolessly etched p-type Si nanowires (NWs) is examined us...
Diffusive phonon transport in nanostructured materials has been a subject of intense interest and mi...
Phonon transport across a non-polar nanowire situated between two semi-infinite contacts is simulate...
Monte Carlo based statistical approach to solve Boltzmann Transport Equation (BTE) has become a norm...
We use molecular-dynamics simulations of vibrational wave packets to study the scattering of longitu...
Submicrometer phonon systems are becoming increasingly relevant in modern day technology. Phonon mec...
We present a kinetic model to investigate the anomalous thermal conductivity in silicon nanowires (S...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
Abstract. We have theoretically studied the influence of the nanostructure cladding materials on the...
textThis dissertation is focused on thermal transport at nanometer scale point and line constriction...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Recent experiments have demonstrated that thermal properties of semiconductor nanostructures depend ...
Nano-scale thermal conduction has been an interesting research topic over the past two decades due t...
The nature of the surface roughness of electrolessly etched p-type Si nanowires (NWs) is examined us...
Diffusive phonon transport in nanostructured materials has been a subject of intense interest and mi...
Phonon transport across a non-polar nanowire situated between two semi-infinite contacts is simulate...
Monte Carlo based statistical approach to solve Boltzmann Transport Equation (BTE) has become a norm...
We use molecular-dynamics simulations of vibrational wave packets to study the scattering of longitu...
Submicrometer phonon systems are becoming increasingly relevant in modern day technology. Phonon mec...
We present a kinetic model to investigate the anomalous thermal conductivity in silicon nanowires (S...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
Abstract. We have theoretically studied the influence of the nanostructure cladding materials on the...
textThis dissertation is focused on thermal transport at nanometer scale point and line constriction...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...