INIS
performance
90%
density functional method
82%
alloys
81%
energy
72%
thermal conductivity
70%
prediction
53%
crystal structure
52%
metals
52%
phonons
49%
thermodynamics
48%
stability
46%
applications
46%
atoms
45%
precipitation
42%
semiconductor materials
40%
vacancies
37%
defects
32%
cations
32%
thermoelectric materials
31%
design
31%
hydrogen
31%
transition metals
29%
nanostructures
29%
interactions
28%
hydrogen storage
28%
phase stability
28%
cathodes
27%
doped materials
26%
synthesis
25%
phase diagrams
25%
transport
25%
lithium
25%
data
24%
oxides
23%
lead tellurides
23%
oxygen
23%
lithium ion batteries
23%
layers
22%
valence
22%
values
21%
electrodes
21%
power factor
21%
formation heat
21%
range
21%
surfaces
20%
capacity
20%
solids
20%
kinetics
20%
voltage
20%
electronic structure
20%
Chemistry
First Principle
100%
Structure
88%
Energy
81%
Thermoelectricity
78%
Density Functional Theory
73%
Alloy
64%
Reaction Temperature
61%
Thermal Conductivity
59%
Procedure
49%
Crystal Structure
48%
Atom
47%
Thermodynamics
42%
Phonon
37%
Semiconductor
36%
Chemical Reaction
36%
Hydrogen
36%
Metal
34%
Application
32%
Energetics
31%
Band Gap
30%
Storage
26%
Concentration
26%
Doping
25%
Phase Composition
25%
Thermoelectric Materials
25%
Cation
25%
Phase Stability
24%
Density
21%
Phase Diagrams
20%
Electron Particle
19%
Expansion
19%
Solid
19%
Electronic State
19%
Synthesis (Chemical)
19%
Lithium
19%
Scattering
18%
Ground State
18%
Oxide
17%
Figure of Merit
17%
Valence Band
17%
Voltage
17%
Transition Element
16%
Surface
16%
Potential
16%
Entropy
15%
Cathode
15%
Chemical Kinetics Characteristics
15%
Crystal Point Defect
15%
Alloying
14%
Seebeck Effect
13%
Physics
First-Principles
81%
Calculation
75%
Alloy
52%
Density Functional Theory
41%
Thermal Conductivity
38%
Stability
36%
Thermodynamics
33%
Temperature
31%
Performance
30%
Crystal Structure
28%
Atoms
23%
Utilization
22%
Metal
20%
Gaps
17%
Thermoelectric Material
16%
Hydrogen
16%
Semiconductor
16%
Sites
15%
Value
15%
Phase Diagrams
14%
Hydrogen Storage
14%
Cation
13%
Model
13%
Shapes
12%
Expansion
12%
Electronic Structure
12%
Solubility
11%
Solid Solutions
11%
Kinetics
11%
Ground State
10%
Behavior
10%
Oxide
10%
Entropy
10%
Perovskites
10%
Solid State
9%
Simulation
9%
Electric Potential
9%
Interfacial Energy
8%
Valence
8%
Free Energy
8%
Correlation
7%
Transition Element
7%
Transition Metal
7%
Battery
6%
Seebeck Effect
6%
Cathode
6%
Alloying
6%
Monte Carlo
6%
Intercalation
6%
Light
6%
