Engineering & Materials Science
Positive ions
100%
Lithium
66%
Cathodes
59%
Defects
49%
Charge distribution
43%
Cathode materials
42%
Solid electrolytes
42%
Substitution reactions
40%
Transition metals
33%
Ions
30%
Impurities
29%
Salts
28%
Garnets
26%
Rocks
25%
Negative ions
23%
Optoelectronic devices
23%
Metals
22%
Energy gap
22%
Crystals
19%
Oxygen
18%
Metal halides
16%
Chalcogenides
15%
Electric potential
15%
Polarons
14%
Perovskite
13%
Fermi level
13%
Crystal structure
12%
Dendrites (metallography)
12%
Entropy
12%
Temperature
12%
Single crystals
11%
Density functional theory
11%
Solar cells
10%
Conversion efficiency
10%
Fluorine
10%
Stoichiometry
10%
Annealing
9%
X ray diffraction
9%
Oxygen vacancies
9%
Physical properties
8%
Materials properties
8%
Structural properties
6%
Uncertainty
6%
Electrolytes
5%
Chemistry
Cathode
65%
Disorder
51%
P4332
50%
Short-Range Order
39%
Cation
37%
Substitution Reaction
30%
Solid Electrolyte
30%
Fd3m
21%
Conductivity
20%
Disordered Structure
18%
Polaron
18%
Chemistry
17%
Fermi Level
17%
Transition Element
14%
Metal
14%
Optoelectronics
13%
Reaction Stoichiometry
12%
Band Gap
11%
Monte Carlo Method
10%
Dioxygen
10%
Energy
9%
Density Functional Theory
9%
Charge Ordering
9%
Fluorine Atom
8%
Entropy
8%
Crystal Structure
7%
Electron Mobility
7%
Hole Mobility
7%
Application
6%
Solar Cell
6%
Diffusion
6%
Annealing
5%
Halide
5%
Single Crystal X-Ray Diffraction
5%
Doping Material
5%
Medicine & Life Sciences
Cations
81%
spinell
52%
Electrodes
52%
Metals
45%
Lithium
32%
Salts
26%
Ions
25%
Temperature
21%
Oxygen
21%
Anions
19%
Entropy
18%
perovskite
17%
Density Functional Theory
17%
fluorine monoxide
16%
Gene Conversion
13%
X-Ray Diffraction
12%
Fluorine
10%
Uncertainty
9%
Guidelines
6%
Growth
5%