Ingeniería y ciencia de los materiales
Electronic properties
100%
Optical properties
57%
Light absorption
56%
Graphene
46%
Electronic structure
46%
Density functional theory
45%
Energy gap
35%
Electric fields
34%
Carbon nanotubes
33%
Nanoribbons
33%
Impurities
33%
Semiconductor materials
29%
Absorption spectra
27%
Discrete Fourier transforms
27%
Optoelectronic devices
26%
Band structure
25%
Adsorption
21%
Molecules
20%
Electron energy levels
19%
Fermi level
18%
Porphyrins
18%
Vacancies
17%
Physisorption
17%
Atoms
17%
Semiconductor quantum wells
16%
Nanotubes
15%
Magnetic moments
14%
Semiconductor quantum wires
14%
Magnetic properties
13%
Oxides
13%
Binding energy
12%
Fullerenes
12%
Refraction
11%
Infrared absorption
11%
Electronic states
11%
Graphene quantum dots
11%
Optical transitions
11%
Crystal lattices
10%
Spin polarization
10%
Scanning tunneling microscopy
10%
Refractive index
10%
Electrons
9%
Monolayers
9%
Photons
9%
Conduction bands
9%
Polarization
8%
Graphene nanoribbon
8%
Hydrostatic pressure
8%
Lattice constants
8%
Light polarization
8%
Compuestos químicos
Electronic Property
49%
Optical Property
37%
Electric Field
36%
Effective Mass
33%
Graphene
32%
Ab Initio Calculation
32%
Optoelectronics
32%
Nanoribbon
30%
Absorptivity
30%
Semiconductor
29%
Density Functional Theory
28%
Electronic State
26%
Blue
26%
Band Gap
26%
Electronic Band Structure
24%
Dielectric Function
23%
Quantum Dot
23%
Energy
23%
Carbon Nanotube
20%
Adsorption
15%
Donor
14%
Van Der Waals Force
14%
Nanotube
13%
Scanning Tunneling Microscopy
13%
Absorption Coefficient
13%
Hexagonal Space Group
12%
Refraction
11%
Polarization
11%
Brillouin Zone
11%
Electron Particle
11%
Fermi Level
10%
Density of State
10%
Simulation
10%
Oxide
10%
Physisorption
10%
Strength
10%
Monolayer
10%
Absorption Spectrum
9%
Tight Binding Model
9%
Momentum
9%
Magnetic Property
9%
Magnetic Moment
9%
Optical Transition
9%
Porphyrin
8%
Nonlinear Optical Absorption
8%
Application
8%
Organic Molecule
8%
Third-Harmonic Generation
8%
Hamiltonian
8%
Single Walled Nanotube
8%
Física y astronomía
quantum dots
41%
electronics
33%
impurities
33%
graphene
27%
carbon nanotubes
27%
density functional theory
25%
optical absorption
23%
hydrostatic pressure
23%
electronic structure
22%
optical properties
20%
electric fields
20%
pressure effects
17%
approximation
16%
adsorption
15%
photoionization
15%
binding energy
14%
quantum wires
13%
porphyrins
13%
zincblende
13%
scanning tunneling microscopy
12%
quantum wells
12%
energy
11%
oxides
9%
wire
9%
optical spectrum
9%
cross sections
9%
electron states
9%
interactions
7%
energy bands
7%
nitrites
7%
polarization
7%
rings
7%
atoms
7%
absorptivity
7%
nanotubes
7%
magnetic fields
7%
hydrogen atoms
7%
configurations
6%
refraction
6%
oxygen
6%
sulfur
6%
axial strain
6%
simulation
6%
chemisorption
5%
graphite
5%
molecules
5%
surface layers
5%
refractivity
5%
carbon
5%
magnetic moments
5%
