Engineering & Materials Science
Ferroelectric materials
100%
Thin films
71%
Lead zirconate titanate
59%
Pulsed laser deposition
53%
Polarization
47%
Ferroelectric thin films
35%
Oxides
34%
Epitaxial films
33%
Substrates
29%
Energy storage
26%
Silicon
26%
Capacitors
25%
Heterojunctions
22%
Epitaxial growth
21%
Hysteresis loops
19%
Electrodes
18%
Perovskite
18%
Hysteresis
13%
MEMS
12%
Buffer layers
12%
Nanosheets
12%
Ferroelectric films
11%
Plasmas
11%
Lead titanate
10%
Electric fields
10%
Oxide films
9%
Crystalline materials
9%
Remanence
9%
Permittivity
9%
High electron mobility transistors
8%
Ferroelectric devices
8%
Carrier concentration
8%
Film thickness
8%
Gallium nitride
8%
Multilayers
7%
Oxygen
7%
Electric breakdown
7%
Microstructure
7%
Crystallinity
7%
Lattice mismatch
7%
Energy harvesting
7%
Fatigue of materials
7%
Harvesters
7%
Screening
7%
Strain relaxation
6%
Doping (additives)
6%
Chemical analysis
6%
Electrons
6%
Electronic equipment
5%
Lead
5%
Chemistry
Pulsed Laser Deposition
48%
Polarization
38%
Capacitor
37%
Liquid Film
34%
Piezoelectric Coefficient
31%
Energy Storage
25%
Hysteresis
25%
Piezoelectricity
24%
Oxide
20%
Epitaxial Growth
12%
Behavior as Electrode
11%
Electric Breakdown
10%
Dielectric Constant
9%
Displacement
9%
Antiferroelectricity
8%
Dielectric Material
8%
Strain
8%
Microstructure
8%
Plasma
7%
Epitaxial Film
7%
Multilayer
7%
Electric Field
7%
Work Function
6%
Figure of Merit
6%
Buffer Solution
6%
Voltage
6%
Nanosheet
5%
Application
5%
Energy
5%
Length
5%
Doping Material
5%
Physics & Astronomy
thin films
45%
pulsed laser deposition
28%
capacitors
23%
oxides
15%
energy storage
13%
hysteresis
10%
coefficients
10%
breakdown
10%
polarization
10%
permittivity
8%
electrodes
8%
MIM (semiconductors)
8%
domain wall
7%
figure of merit
7%
polarity
6%
actuators
6%
thick films
6%
plumes
6%
microstructure
6%
silicon
6%
humidity
5%
magnetization
5%
microelectromechanical systems
5%
Curie temperature
5%