INIS
electrons
92%
prediction
77%
polyenes
57%
doped materials
57%
transport
57%
infrared spectra
51%
trigonal lattices
51%
junctions
51%
carbon nanotubes
51%
spectra
51%
transmission
39%
trapping
38%
layers
38%
energy
38%
dipoles
34%
electrodes
34%
carriers
34%
density of states
34%
ions
32%
geometry
32%
polarization
30%
density functional method
25%
nanoparticles
25%
investigations
25%
fluctuations
25%
titanium oxides
25%
graphene
25%
spin
25%
crystals
25%
tubes
25%
confinement
25%
ligands
25%
rings
25%
water
25%
entropy
25%
polarons
25%
passivation
25%
instability
25%
wave functions
25%
molecules
25%
charge transport
25%
valleys
25%
interactions
25%
cluster model
25%
oscillations
25%
interference
23%
low temperature
21%
surfaces
21%
electrostatics
21%
green function
20%
Physics
Model
100%
Electrons
68%
Spectra
51%
Polaron
51%
Infrared Spectra
51%
Density of States
38%
Ion
38%
Regimes
38%
Electrodes
34%
Temperature
34%
Wave Function
30%
Variations
30%
Gaps
28%
Graphene
25%
Surface Energy
25%
Density Functional Theory
25%
Molecules
25%
Entropy
25%
Chemical Reaction
25%
Frustration
25%
Spin
25%
Confinement
25%
Electron State
25%
Phase Transition
25%
Quantum Structure
25%
Oscillation
25%
Interference
23%
Region
21%
Electrostatics
21%
Green's Functions
20%
Orbitals
20%
Binding
16%
Contrast
15%
Atoms
13%
Attraction
12%
Dielectrics
12%
Parameter
12%
Coefficients
12%
Heating
12%
Independent Variables
12%
Gravitational Singularities
8%
DFT Calculations
8%
Photovoltaic Cells
8%
Differences
8%
Validity
8%
Responses
8%
Lead
8%
Cores
7%
Distance
6%
Simulation
6%
Chemistry
Electron Particle
90%
Spectra
51%
Structure
51%
Polaron
51%
Density Functional Theory
32%
Polyene
32%
Armchair Carbon Nanotube
30%
Wave Function
30%
Energy
28%
Interfacial Energy
25%
Molecule
25%
Titanium Oxide
25%
Fluctuation
25%
Entropy
25%
Graphene
25%
Nanoparticle
25%
Structural Phase Transition
25%
Fluorine Ion
25%
Dielectric Function
25%
Reaction Temperature
25%
Chemical Passivation
25%
Ligand
25%
Cluster Model
25%
Conductance
25%
Counterion
25%
Polaron
22%
Phonon
20%
Titanium Dioxide
19%
Doping
14%
Electronic State
14%
Surface
12%
Density
12%
Antiferroelectricity
12%
Heating
12%
Density of State
12%
Number
12%
Phase Transition
12%
Electron Transport
10%
Optical Conductivity
10%
Weight
10%
Concentration
10%
Monolayer
8%
Band Gap
8%
Electrostatic Interaction
8%
Reflection
8%
Oxygen Atom
7%
Nonconductor
7%
Polarization
7%
Metal
7%
Spin Polarization
7%