Engineering & Materials Science
Lithium-ion batteries
100%
Sodium-ion batteries
77%
Ions
77%
Electrodes
71%
Lithium
46%
Apatite
45%
Anodes
36%
Oxides
35%
Cathodes
25%
Sodium
23%
Doping (additives)
21%
Recycling
21%
Electrolytes
20%
Coatings
19%
Protons
18%
Cathode materials
17%
Graphite
16%
Carbon
15%
Neutron diffraction
14%
Lanthanum
12%
Electric potential
12%
Drying
12%
Graphite electrodes
10%
Temperature
9%
Proton conductivity
9%
Oxidation-Reduction
9%
Oxygen
9%
Silicates
9%
Perovskite
8%
Solid oxide fuel cells (SOFC)
8%
Garnets
8%
Defects
8%
Slurries
8%
Chemical analysis
8%
Electric vehicles
7%
Iron
7%
Life cycle
7%
Gallium
7%
Solid electrolytes
7%
Titration
7%
Raman spectroscopy
7%
Binders
6%
X ray powder diffraction
6%
Nanostructured materials
6%
Aluminum
6%
Degradation
6%
Water
6%
Phosphates
6%
Substitution reactions
6%
Hot Temperature
6%
Chemistry
Behavior as Electrode
38%
Cathode
28%
Conductivity
26%
Anode
25%
Apatite
25%
Conductor
24%
Oxide
22%
Ion
19%
Interstitial
18%
Voltage
17%
Energy
17%
Recycling
17%
Neutron Diffraction
14%
Doping Material
14%
Graphite
14%
Dioxygen
10%
Sodium Atom
10%
Coating Agent
10%
Diffusion Coefficient
9%
Safety
8%
Proton
8%
Resistance
8%
Application
8%
Thermal Runaway
8%
Diffusion
7%
Tetragonal Space Group
7%
Alkaline Earth Metal
6%
Cation
6%
Energy Storage
6%
Lithiation
6%
Carbon Atom
5%
Cubic Space Group
5%
Lanthanoid Atom
5%
Metal
5%
Iron Sulfides
5%
Tetrahedral Crystal
5%
Transport Property
5%
Physics & Astronomy
electric batteries
58%
lithium
39%
ions
37%
apatites
25%
electrodes
23%
conductivity
19%
cells
18%
synthesis
16%
germanates
14%
oxides
13%
graphite
13%
sodium
13%
electrolytes
12%
lanthanum
12%
anodes
11%
garnets
11%
conductors
10%
neutron diffraction
8%
cycles
8%
conduction
7%
cathodes
7%
performance
7%
protons
6%
manufacturing
6%
optimization
6%
substitutes
6%
solid state
5%
accumulators
5%
oxygen
5%
sulfur
5%