Engineering & Materials Science
Ferroelectric materials
100%
Polyetherimides
82%
Lead zirconate titanate
67%
Atomic layer deposition
62%
Polarization
61%
Internal friction
56%
Capacitors
56%
Film capacitor
51%
Polymers
46%
Supercapacitor
45%
Polymer films
39%
Temperature
38%
Nanocomposites
38%
Varistors
36%
Ferroelectric ceramics
33%
Permittivity
30%
Electric potential
29%
Impurities
27%
Composite materials
26%
Surge protection
26%
Dielectric properties
25%
Activated carbon
25%
Dielectric spectroscopy
21%
Chemical analysis
21%
Electrodes
21%
Energy storage
21%
Atoms
21%
Lead
20%
Metals
20%
Capacitance
20%
Polypropylenes
19%
Electrolytes
19%
Transmission electron microscopy
18%
High temperature applications
18%
Oxygen
18%
Defects
18%
Oxides
17%
Dielectric films
17%
Electric breakdown
17%
Fillers
16%
Nanostructures
15%
Electrostatics
14%
Electric fields
14%
Coatings
13%
Current density
13%
Magnesium
13%
Hysteresis
13%
Aluminum oxide
13%
Thermodynamic stability
13%
Fabrication
12%
Chemical Compounds
Capacitor
62%
Dielectric Material
55%
Polarization
50%
Ceramic
50%
Liquid Film
41%
Atomic Layer Epitaxy
38%
Antiferroelectricity
36%
Dielectric Strength
35%
Dielectric Response
30%
Voltage
27%
Energy
25%
Energy Storage
19%
Dielectric Constant
19%
Composite Material
19%
Application
18%
Dielectric Loss
18%
Rhombohedral Space Group
16%
Ferroelectric Domain
14%
Electric Field
14%
Filler
14%
Grain Size
13%
Hysteresis
13%
Diffusion
13%
Transmission Electron Microscopy
13%
Solute
13%
Behavior as Electrode
13%
Nanocomposite
13%
Modification
12%
Impedance Spectroscopy
12%
Strength
11%
Coating Agent
11%
Dielectric Property
11%
Magnesium Atom
10%
Metal Oxide
10%
Sintering
10%
Dioxygen
10%
Strain
10%
Zinc Oxide
10%
Leakage Current
10%
Meso Porosity
10%
Torsion
9%
Poly(propylene)
9%
Anode
9%
Single Crystalline Solid
9%
Thermal Conductivity
9%
Alloy
8%
Strain Hardening
8%
Current Density
8%
Dielectric Film
8%
Curie Temperature
8%
Physics & Astronomy
lead zirconate titanates
73%
polarization
32%
fillers
29%
internal friction
29%
composite materials
27%
ceramics
26%
capacitors
23%
polymers
20%
phase transformations
18%
zirconates
17%
flux density
14%
permittivity
14%
atomic layer epitaxy
13%
potassium
12%
defects
11%
alternating current
11%
breakdown
10%
impurities
10%
oxygen
10%
temperature
10%
stabilization
9%
valence
9%
boron nitrides
9%
towers
8%
activated carbon
8%
augmentation
8%
electrochemical capacitors
8%
direct current
8%
varistors
8%
modulus of elasticity
8%
transmission electron microscopy
8%
hypoxia
8%
grain size
8%
microwave absorption
7%
alloying
7%
electrode materials
7%
ferroelectricity
7%
dielectric loss
7%
electron microscopy
7%
aluminum nitrides
7%
zinc oxides
7%
hysteresis
6%
spectroscopy
6%
nanocomposites
6%
electrical resistivity
6%
electric fields
5%
substitutes
5%
intermetallics
5%
nonlinearity
5%
electronics
5%