Engineering & Materials Science
Density functional theory
100%
Valence bands
65%
Electronic structure
62%
Perovskite
56%
Doping (additives)
48%
Energy gap
46%
Transparent conducting oxides
46%
Conduction bands
42%
Positive ions
39%
Oxides
37%
Thin films
34%
Vacancies
34%
Semiconductor materials
34%
Defects
34%
Ions
31%
Sodium-ion batteries
31%
Electronic properties
30%
Optoelectronic devices
29%
Electrons
25%
Lithium
25%
Point defects
24%
Solar cells
24%
Carrier concentration
22%
Cathode materials
22%
Charge carriers
21%
Photoelectron spectroscopy
20%
Photoemission
20%
Solar absorbers
19%
Lithium-ion batteries
18%
Negative ions
18%
Anodes
18%
X rays
17%
Light absorption
17%
Optical band gaps
17%
Ionization potential
16%
Oxidation-Reduction
14%
Heterojunctions
14%
Transparency
14%
Crystal structure
14%
Cathodes
14%
Polymorphism
13%
X ray photoelectron spectroscopy
13%
Substitution reactions
13%
Temperature
12%
Earth (planet)
12%
Nanocrystals
12%
Band structure
12%
Antiferromagnetism
12%
Chalcogenides
12%
Antimony
11%
Chemistry
Band Gap
45%
Density Functional Theory
44%
Valence Band
42%
Oxide
39%
Electronic State
36%
Semiconductor
34%
Optoelectronics
31%
Solar Cell
27%
Conduction Band
25%
Conductivity
25%
Doping Material
25%
Energy
23%
Halide
22%
Crystal Point Defect
22%
Charge Carrier
22%
Thermoelectricity
21%
Liquid Film
21%
Compound Mobility
20%
Application
19%
Solar Absorber
19%
Cathode
19%
Electronic Property
18%
Disorder
18%
Cation
17%
Surface
17%
Conductor
15%
Transparency
15%
Anode
14%
Density of State
13%
Orbital
13%
Band Bending
12%
Substitution Reaction
12%
Iodide
11%
Electron Particle
11%
Metal Oxide
10%
Nanocrystal
10%
Absorptivity
10%
Photoemission
10%
Electronic Band Structure
10%
Energy Storage
10%
Donor
10%
Photoelectron Spectroscopy
9%
Dioxygen
9%
Ion
9%
Chemistry
9%
Chemical Vapour Deposition
9%
Bubble
9%
Ionization Potential
8%
Crystal Structure
8%
Antiferromagnetism
8%
Physics & Astronomy
density functional theory
29%
electronics
20%
electronic structure
19%
valence
16%
oxides
15%
electric batteries
15%
defects
14%
perovskites
12%
solar cells
12%
lithium
10%
orbitals
10%
nanocrystals
10%
dioxides
10%
cations
9%
thin films
9%
conduction bands
9%
ionization potentials
9%
conductivity
8%
anions
8%
x ray spectroscopy
8%
optical absorption
8%
x rays
7%
electrons
7%
adsorption
7%
alignment
7%
point defects
7%
cathodes
6%
solid electrolytes
6%
ions
6%
antiferromagnetism
6%
photoelectric emission
6%
synthesis
6%
engineering
6%
photoelectron spectroscopy
6%
metals
6%
conduction
6%
absorbers
6%
metal oxides
6%
vanadium
5%
disorders
5%
molybdenum
5%
performance
5%
water
5%
document markup languages
5%
halides
5%