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Resonant Thermal Transport in Nanophononic Metamaterials
Mahmoud I. Hussein
, Hossein Honarvar
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
›
peer-review
1
Scopus citations
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Dive into the research topics of 'Resonant Thermal Transport in Nanophononic Metamaterials'. Together they form a unique fingerprint.
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Keyphrases
Nanopillars
100%
Thermal Transport
100%
Nanophononic Metamaterials
100%
Thermoelectric Materials
75%
Phonons
50%
Vibron
50%
Local Resonance
50%
High Performance
25%
Negligible Effects
25%
Molecular Dynamics
25%
Membrane Changes
25%
Physical Processes
25%
Electrical Conductivity
25%
Two-wave
25%
Electrical Energy
25%
Dynamic Base
25%
High Power Factor
25%
Electron Scattering
25%
Banded Structure
25%
Lattice Dynamics
25%
Induced Mechanism
25%
Novel Nanostructure
25%
Common Materials
25%
Low Thermal Conductivity
25%
Historical Constraints
25%
Silicon Membrane
25%
Phonon Lifetime
25%
Lattice Thermal Conductivity
25%
Local Resonators
25%
Thermoelectric Energy Conversion
25%
Phonon Group Velocity
25%
Natural Constraint
25%
Material Concepts
25%
Mode Localization
25%
Material Science
Thermoelectric Materials
100%
Metamaterial
100%
Thermal Conductivity
66%
Silicon
66%
Electrical Conductivity
33%
Thermoelectrics
33%
Resonator
33%
Electronic Band Structure
33%
Lattice Vibration
33%
Surface (Surface Science)
33%
Nanostructure
33%
Engineering
Nanopillar
100%
Thermoelectric Materials
75%
Thermal Conductivity
25%
Nanomaterial
25%
Band Structure
25%
Resonator
25%
Negligible Effect
25%
Electrical Power
25%
Low Thermal Conductivity
25%
Main Body
25%
Group Velocity
25%
Power Factor
25%
Thermoelectric Energy Conversion
25%
Electrical Conductivity
25%
Base Material
25%