Engineering & Materials Science
Nanowires
94%
Oxygen vacancies
74%
Perovskite
66%
Heterojunctions
62%
Atomic force microscopy
61%
Physical vapor deposition
59%
Single crystals
55%
Atomic layer deposition
55%
Microscopes
46%
Metals
46%
Interfaces (computer)
45%
Semiconductor materials
42%
Tuning
37%
Electrodes
37%
Data storage equipment
29%
Chemical properties
27%
Metal halides
26%
Perovskite solar cells
26%
Domain walls
24%
Ferroelectric materials
21%
Crystal structure
20%
Diffraction
17%
Oxidation-Reduction
15%
X rays
14%
Crystalline materials
14%
Temperature
12%
Characterization (materials science)
10%
Oxides
10%
Durability
9%
Oxygen
9%
Switches
8%
Electric lamps
7%
Transmission electron microscopy
7%
Annealing
6%
Imaging techniques
5%
Physics & Astronomy
nanowires
100%
atomic force microscopy
73%
random access memory
55%
perovskites
40%
atomic layer epitaxy
37%
vapor deposition
37%
metals
37%
tuning
36%
engineering
35%
single crystals
29%
electrodes
29%
oxygen
29%
chemical properties
25%
performance
16%
microscopes
15%
endurance
14%
characterization
10%
filaments
10%
switches
9%
metal halides
9%
flash lamps
9%
oxides
7%
augmentation
7%
domain wall
6%
heterojunctions
6%
pulses
6%
x ray diffraction
5%
crystal structure
5%
solar cells
5%
Chemical Compounds
Ferroelastic Domain
87%
Nanowire
83%
Schottky Barrier
38%
Atomic Force Microscopy
38%
Single Crystalline Solid
34%
Physico-Chemical Property
33%
Force
32%
Behavior as Electrode
24%
Dioxygen
23%
Band Bending
22%
Physical Vapour Deposition
20%
Band Offset
19%
Metal
18%
Atomic Layer Epitaxy
18%
Ferroelectric Domain
16%
Filament
16%
Reflection
15%
Strain
15%
Annealing
9%
Semiconductor
9%
Oxide
8%
Transmission Electron Microscopy
7%
Simulation
7%
Halide
7%
Pressure
5%
Ambient Reaction Temperature
5%
