Технические дисциплины и материаловедение
Activation energy
21%
Alumina
11%
Argon
13%
Cermets
17%
Cesium
23%
Charge carriers
10%
Composite materials
64%
Doping (additives)
19%
Electric Conductivity
25%
Electric properties
11%
Electrochemical properties
10%
Electrodes
19%
Electrolytes
34%
Grain boundaries
9%
Hydrogen
15%
Impregnation
10%
Infrared spectroscopy
11%
Ionic conductivity
94%
Ions
20%
Iron
9%
Iron oxides
19%
Isotopes
13%
Lithium
24%
Metal-Organic Frameworks
23%
Nanocomposites
51%
Nanodiamonds
52%
Negative ions
11%
Neodymium
10%
Nuclear magnetic resonance
10%
Oxides
43%
Oxygen
26%
Phase transitions
20%
Positive ions
17%
Powders
17%
Proton conductivity
23%
Protons
22%
Salts
51%
Silica
22%
Silver
11%
Sintering
23%
Solid electrolytes
100%
Specific surface area
12%
Structural properties
23%
Supercapacitor
12%
Temperature
29%
Thermodynamic properties
21%
Thermolysis
17%
Tin foil
15%
Transmission electron microscopy
11%
Transport properties
58%
Химические соединения
Additive
22%
Amorphous Material
6%
Bond Valence Sum Analysis
7%
Cation
10%
Ceramic
8%
Cermet
9%
Composite Material
51%
Conductivity
78%
Conductor
7%
Dioxygen
11%
Electrical Conductivity
17%
Electrical Property
9%
Foil
7%
Grain Boundary
10%
Graphite
6%
Hydrogen
7%
Iodide
11%
Ion
6%
Ionic Conductivity
56%
IR Spectroscopy
8%
Iron Oxide
13%
Meso Porosity
15%
Metal Organic Framework
12%
Nanocomposite
30%
Nanodiamond
38%
Nanoporosity
6%
Nitrite
15%
Organic Group
9%
Organic Salt
16%
Oxalate
23%
Oxide
21%
Pellet
14%
Perchlorate
20%
Pore
11%
Proton
8%
Purity
10%
Reaction Activation Energy
11%
Self-Diffusion Coefficient
15%
Sintering
16%
Solid Electrolyte
75%
Specific Surface Area
8%
Surface
8%
Tetrabutylammonium
14%
Tetrabutylammonium Salt
10%
Thermoanalysis
7%
Thermolysis
11%
Transport Property
52%
Tungstate
17%
Tungsten
6%
Voltage
6%
Физика и астрономия
activation energy
5%
alkalies
7%
aluminum oxides
8%
cations
15%
ceramics
6%
cermets
8%
cesium
12%
composite materials
17%
conduction
5%
conductivity
48%
conductors
6%
crystal structure
6%
diffusion coefficient
8%
electrical properties
7%
electrodes
5%
electrolytes
11%
grain boundaries
7%
humidity
5%
hydrogen
6%
iodides
8%
ion currents
33%
ions
6%
lithium
7%
lithium oxides
10%
lithium perchlorates
12%
low conductivity
6%
matrices
7%
metals
14%
nanocomposites
8%
nitrites
20%
nuclear magnetic resonance
9%
oxides
11%
oxygen
7%
oxygen isotopes
5%
pellets
11%
perchlorates
10%
porosity
5%
protons
11%
roasting
8%
salts
24%
solid electrolytes
43%
solid solutions
6%
sulfates
7%
temperature
5%
tetrahedrons
5%
thermal analysis
6%
thermodynamic properties
16%
transport properties
25%
tungsten
6%
zirconium oxides
5%