INIS
carriers
20%
chalcogenides
20%
chemistry
20%
concentration
20%
crystals
100%
design
20%
doped materials
20%
efficiency
20%
energy
20%
engineers
20%
grain boundaries
100%
heat
20%
high pressure
20%
lead selenides
20%
length
20%
mean free path
20%
molecular dynamics method
20%
morphology
20%
nanostructures
20%
phase transformations
20%
phonons
100%
reduction
20%
scattering
40%
shock waves
20%
size
40%
sustainable development
20%
temperature dependence
20%
thermal conductivity
100%
thermoelectric materials
40%
thermoelectric properties
20%
Engineering
Alloying
20%
Carrier Concentration
20%
Crystal Grain
100%
Design
20%
Dopants
20%
Efficiency
20%
Electrical Energy
20%
Grain Boundary
100%
High Pressure
20%
Length Scale
20%
Low Frequency
20%
Mean Free Path
20%
Mechanical Load
20%
Nanoscale
20%
Reduction
20%
Scatterer
100%
Scattering
40%
Shockwave
20%
Size Scale
20%
Sustainable Development
20%
Temperature Dependence
20%
Thermal Conductivity
100%
Thermoelectric Materials
40%
Thermoelectrics
100%
Material Science
Alloying
20%
Carrier Concentration
20%
Chalcogenides
20%
Crystals
100%
Doping (Additives)
20%
Grain Boundary
100%
Materials Design
20%
Morphology
20%
Temperature
20%
Thermal Conductivity
100%
Thermoelectric Materials
40%
Thermoelectrics
100%
Keyphrases
Grain Features
33%
Lattice Thermal Conductivity
33%
Low-frequency Phonons
33%
Nanograins
33%
Phase Transition Path
33%
Thermal Conductivity Reduction
33%
Thermoelectric Materials
66%