Originally published in Journal of Applied Physics vol. 97 no. 10. The American Institute of Physics and IEEE holds all copyright of this article. AIP and IEEE allows the final published version of author's own work to be deposited in institutional repositories.Lattice Boltzmann method (LBM) based on Boltzmann transport equation is developed to simulate the nanoscale heat transport in solids. The LBM can simulate both the metals and semiconductors by properly incorporating the energy carriers. We found that boundary scattering of phonons results in an anisotropic thermal transport in nanoscale solids. The electron-phonon coupling is introduced to accurately describe the thermal behavior of nanoscale confined solids. Our numerical tool will ...
Utilizing nanofluids to enhance heat transfer is shown to be a promising option with many practical ...
In this paper a description of heat transfer in one-dimensional crystalline solids is presented. The...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Originally published in Journal of Applied Physics vol. 97 no. 10. The American Institute of Physics...
The significant self-heating effect severely restricts the performance and reliability of nano-elect...
Demands for engineering thermal transport properties are ever increasing for a wide range of modern ...
In the paper a description of heat transfer in one-dimensional crystalline solids is presented. The ...
AbstractA recently developed multiscale model is used to study thermal conduction in silicon. In thi...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
Nanoscale heat transport has become a crucial research topic due to the growing importance of nanote...
Advanced nanofabrication techniques have enabled the creation of novel engineering devices. As a con...
To describe the thermal behaviour of nanostructured materials and nanoelectronic devices, new proper...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Ca...
Understanding heat transport in semiconductors and insulators is of fundamental importance because o...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
Utilizing nanofluids to enhance heat transfer is shown to be a promising option with many practical ...
In this paper a description of heat transfer in one-dimensional crystalline solids is presented. The...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...
Originally published in Journal of Applied Physics vol. 97 no. 10. The American Institute of Physics...
The significant self-heating effect severely restricts the performance and reliability of nano-elect...
Demands for engineering thermal transport properties are ever increasing for a wide range of modern ...
In the paper a description of heat transfer in one-dimensional crystalline solids is presented. The ...
AbstractA recently developed multiscale model is used to study thermal conduction in silicon. In thi...
The mechanisms of thermal transport in defect-free silicon nanostructures are examined using a combi...
Nanoscale heat transport has become a crucial research topic due to the growing importance of nanote...
Advanced nanofabrication techniques have enabled the creation of novel engineering devices. As a con...
To describe the thermal behaviour of nanostructured materials and nanoelectronic devices, new proper...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2015.Ca...
Understanding heat transport in semiconductors and insulators is of fundamental importance because o...
The inability to remove heat efficiently is currently one of the stumbling blocks toward further min...
Utilizing nanofluids to enhance heat transfer is shown to be a promising option with many practical ...
In this paper a description of heat transfer in one-dimensional crystalline solids is presented. The...
The thermal conductivity (k) of a semiconducting nanostructure is dramatically reduced from the bulk...