Engineering & Materials Science
X ray absorption
100%
Ions
40%
X rays
36%
Electronic structure
23%
Molecular orbitals
22%
Doping (additives)
20%
Atoms
20%
Solid state reactions
19%
Perovskite
19%
Orbital calculations
18%
Positive ions
16%
Electrons
15%
Lattice vibrations
13%
Density functional theory
13%
Polymorphism
12%
Absorption spectra
12%
Crystals
11%
Functional materials
11%
Phosphates
11%
Satellites
10%
Zinc
10%
Electronic properties
9%
Energy dissipation
9%
Synchrotron radiation
9%
Thin films
9%
Crystal structure
9%
Negative ions
8%
X ray detectors
8%
Photoemission
8%
Aluminum oxide
8%
Projectiles
8%
Solar cells
8%
Phosphors
8%
Ceramic materials
8%
Ionization
8%
Temperature
7%
Electronic states
7%
Bioceramics
7%
Valence bands
7%
Oxides
7%
X ray photoelectron spectroscopy
7%
Ferromagnetism
7%
Surface structure
6%
Ground state
6%
Substitution reactions
6%
Irradiation
6%
Silicon nitride
6%
Phonons
5%
Space applications
5%
Perovskite solar cells
5%
Physics & Astronomy
x rays
31%
fine structure
27%
x ray absorption
22%
ions
20%
valence
15%
electronic structure
10%
perovskites
10%
molecular orbitals
10%
atoms
9%
orbitals
9%
cations
9%
spinel
8%
solid state
8%
thin films
7%
phosphates
7%
zinc
7%
energy
7%
electronics
7%
ferromagnetism
6%
room temperature
6%
energy dissipation
5%
ionization cross sections
5%
approximation
5%
density functional theory
5%
substitutes
5%
atomic structure
5%
plane waves
5%
ceramics
5%
pulsed laser deposition
5%
crystals
5%
Chemical Compounds
X-Ray Absorption Near Edge Structure
28%
Ion
14%
Energy
12%
Environment
11%
Lattice Dynamics
11%
Electronic State
10%
Plane Wave
9%
Near Edge X-Ray Absorption Fine Structure
9%
Photoemission
8%
Valence
8%
Auger Electron Spectrum
7%
Doping Material
7%
Ceramic
7%
Solid State Reaction
7%
X-Ray Absorption Spectra
6%
Orbital
6%
Density of State
6%
Soft X-Ray
6%
Ambient Reaction Temperature
6%
Cation
6%
Pseudopotential
6%
X-Ray
6%
Substitution Reaction
5%
Ferromagnetism
5%
Pressure
5%
Electron Particle
5%
Halide
5%