Engineering & Materials Science
Electronic properties
100%
Perovskite
94%
Atoms
43%
Density functional theory
43%
Magnetic properties
41%
Nanowires
28%
Energy gap
27%
Magnetic moments
24%
Discrete Fourier transforms
21%
Electrons
21%
Charge transfer
21%
Band structure
20%
Passivation
17%
Spintronics
16%
Doping (additives)
16%
Mechanical properties
15%
Transition metals
13%
Nanopores
12%
Porous silicon
12%
Electronic density of states
12%
Structural properties
11%
Quantum confinement
11%
Silicon carbide
10%
Hamiltonians
10%
Silicon
9%
Semiconductor materials
9%
Nanostructures
9%
Surface treatment
9%
Hydrogen
9%
Binding energy
8%
Lithium
8%
Electronic structure
8%
Iron
8%
Oxygen
8%
Curie temperature
7%
Dangling bonds
7%
Physical properties
7%
Bond length
7%
Fermi level
7%
Molecular orbitals
7%
Quasicrystals
7%
Phase transitions
7%
Hydrostatic pressure
7%
Core levels
6%
Phonons
6%
Crystalline materials
6%
Lattice constants
6%
Substitution reactions
6%
Electronic states
6%
Lithium-ion batteries
6%
Chemistry
Electronic Property
60%
Slab Like Crystal
29%
Magnetic Property
27%
Nanowire
23%
Band Gap
23%
Density of State
19%
Density Functional Theory
18%
Tight Binding Model
17%
Antiferromagnetic
17%
Electronic Band Structure
16%
Magnetic Moment
15%
Silicon Carbide
15%
Conduction Electron
15%
Chemical Passivation
14%
Spintronics
14%
Surface
12%
Porosity
10%
Nonconductor
10%
Charge Transfer
10%
Energy
10%
Electronic State
9%
Application
8%
Lithium Atom
7%
Electron Spin
7%
Pressure
7%
Surface Modification
7%
Dangling Bond
7%
Curie Temperature
7%
Cubic Space Group
6%
Transition Element
6%
Semiconductor
6%
Dielectric Function
6%
Metal Insulator Transition
6%
Quasicrystallinity
5%
Nanomaterial
5%
Core Level
5%
Conductor
5%
Fermi Level
5%
Binding Energy
5%
Physics & Astronomy
perovskites
61%
electronics
40%
nanowires
18%
density functional theory
18%
atoms
16%
slabs
15%
passivity
14%
charge transfer
14%
magnetic moments
11%
mechanical properties
11%
magnetic properties
10%
hydrostatic pressure
9%
moment distribution
9%
energy
8%
porous silicon
8%
interactions
8%
transition metals
7%
expansion
7%
silicon carbides
7%
conduction electrons
7%
perturbation
7%
Curie temperature
7%
silicon
7%
zirconium carbides
6%
lithium
6%
insulators
6%
approximation
6%
gradients
5%