Keyphrases
Quantum Dot Superlattices
100%
Thermal Conductivity Reduction
100%
Amorphous Germanium
100%
Germanium Thin Films
100%
Si02
100%
Germanium Quantum Dots
100%
Cross-plane Thermal Conductivity
100%
Amorphous Crystallization
100%
Buffer Layer
100%
Ge Content
100%
SiGe Layer
100%
Strained SiGe
100%
Density Control
100%
Ge Islands
100%
Self-assembling
100%
Chemical Interaction
50%
C-Si
50%
Adatoms
50%
Dot Density
50%
Limited Growth
50%
Order of Magnitude
50%
SiGe
50%
Growth Mechanism
50%
Cross-sectional Transmission Electron Microscopy
33%
Metallic Liquid
33%
Very Thin Films
33%
Liquid Film
33%
Ge Nanocrystals
33%
Vertical Correlation
33%
High Efficiency
33%
On chip
33%
Thermoelectric Materials
33%
Observed Effects
33%
Thermal Conductivity
33%
Temperature Effect
33%
Layer Thickness
33%
Raman Scattering
33%
Annealing
33%
Crystallization
33%
Copyright
33%
Ge Layer
33%
Ultrathin
33%
Surface Form
33%
High Temperature
33%
Electron Beam Evaporation
33%
Trilayer
33%
Annealing Temperature
33%
Nanocrystals
33%
Amorphous-to-crystalline Transition
33%
Capping Layer
33%
Material Science
Thermal Conductivity
100%
Quantum Dot
100%
Superlattice
100%
Density
100%
Thin Films
100%
Germanium
100%
Buffer Layer
66%
Nanocrystalline Material
50%
Liquid Film
50%
Surface (Surface Science)
50%
Transmission Electron Microscopy
50%
Scanning Electron Microscopy
50%
Thermoelectric Materials
33%
