Engineering & Materials Science
Perovskite
100%
Electronic structure
81%
Density functional theory
54%
Metal-Organic Frameworks
49%
Valence bands
49%
Energy gap
46%
Electrons
43%
Positive ions
39%
Phonons
37%
Semiconductor materials
37%
Solar cells
35%
Defects
32%
Conduction bands
28%
Electronic properties
26%
Lattice vibrations
24%
Perovskite solar cells
24%
Oxides
23%
Lead
22%
Band structure
21%
Optoelectronic devices
21%
Ionization potential
20%
Point defects
18%
Crystal structure
18%
Vacancies
17%
Metal halides
17%
Transparent conducting oxides
17%
Doping (additives)
17%
Crystals
16%
Negative ions
16%
Polymorphism
15%
Chalcogenides
15%
Metals
15%
Thin films
13%
Temperature
13%
Indium
12%
Thin film solar cells
12%
Ions
12%
Sulfides
12%
Charge transfer
12%
Charge carriers
11%
Atoms
11%
Tin
11%
Thermodynamics
11%
Photoemission
11%
Oxidation
11%
Structural properties
11%
Light absorption
11%
X rays
10%
Polarons
10%
Ligands
10%
Chemical Compounds
Halide
52%
Electronic State
48%
Band Gap
44%
Semiconductor
43%
Solar Cell
40%
Metal Organic Framework
35%
Phonon
31%
Valence Band
30%
Density Functional Theory
28%
Energy
25%
Lattice Dynamics
24%
Crystal Point Defect
23%
Oxide
22%
Methylammonium
21%
Optoelectronics
20%
Cation
19%
Electronic Property
19%
Electron Particle
19%
Conduction Band
19%
Disorder
17%
Electronic Band Structure
16%
Application
16%
Ionization Potential
16%
Metal Oxide
14%
Conductivity
14%
Crystal Structure
14%
Metal
14%
Cubic Space Group
12%
Thermodynamics
11%
Simulation
11%
Charge Carrier
10%
Sulfide
10%
Dioxygen
10%
Iodide
9%
Orbital
9%
Interstitial
9%
Work Function
8%
Quasiparticle
8%
Alloy
8%
Oxidation Reaction
8%
Optical Property
8%
Effective Mass
8%
Molecular Cluster
8%
Polaron
7%
Ion
7%
Anion
7%
Thermal Conductivity
7%
Substitution Reaction
7%
Phase Stability
7%
Strain
7%
Physics & Astronomy
perovskites
36%
halides
31%
electronic structure
31%
solar cells
28%
density functional theory
26%
electronics
22%
defects
19%
cations
18%
oxides
13%
valence
13%
phonons
12%
metals
11%
oxygen
11%
engineering
10%
thin films
10%
electrons
10%
crystal structure
9%
iodides
9%
ionization potentials
9%
absorbers
8%
crystals
8%
anions
8%
sulfides
8%
energy
8%
indium oxides
8%
tin
8%
alignment
8%
conduction bands
8%
metal oxides
7%
thermodynamics
7%
chalcogenides
7%
disorders
7%
conduction
7%
performance
6%
metal halides
6%
photoelectric emission
6%
point defects
6%
spectroscopy
6%
interactions
6%
optoelectronic devices
6%
x rays
6%
ligands
5%
conductivity
5%
absorbers (materials)
5%
functionals
5%
optical absorption
5%
physics
5%
