Engineering & Materials Science
Heterojunctions
100%
Semiconductor materials
77%
Vacancies
71%
Diamonds
60%
Scanning
48%
Impurities
43%
Optoelectronic devices
42%
Defects
42%
Plasmonics
40%
Charge transfer
36%
Microscopes
33%
Monolayers
29%
Doping (additives)
28%
Nitrogen
27%
Memristors
26%
Adatoms
26%
Excitons
24%
Ionization
24%
Electronic states
22%
Nanostructures
21%
Point defects
21%
Imaging techniques
21%
Aluminum hydroxide
21%
Spectroscopy
20%
Graphene
20%
Microscopic examination
20%
Modulation
19%
Temperature
19%
Bending (forming)
19%
Atoms
19%
Sensors
19%
Tuning
18%
Transistors
18%
Superhydrophobicity
18%
Electrostatics
18%
Electronic equipment
17%
Tungsten
17%
Nanowires
17%
Transition metals
17%
Magnetometers
17%
Molybdenum
16%
Density functional theory
15%
Fabrication
14%
Hydrogen
14%
Multilayers
13%
Aluminum oxide
13%
Scattering
13%
Boron nitride
13%
Mechanics
12%
Raman scattering
11%
Physics & Astronomy
diamonds
72%
nitrogen
42%
defects
40%
scanning
37%
engineering
36%
magnetometers
27%
impurities
25%
microscopes
25%
microwave antennas
21%
modulation doping
20%
molybdenum disulfides
17%
surface layers
16%
acceleration (physics)
15%
transistors
14%
electronics
14%
adatoms
14%
Q factors
13%
antenna design
13%
point defects
13%
ionization
13%
simulation
12%
heterojunctions
12%
profiles
11%
assembly
11%
room temperature
11%
positioning
11%
emitters
11%
coils
11%
aluminum oxides
11%
graphene
11%
fabrication
11%
probes
11%
modulation
11%
excitons
10%
electrostatics
10%
costs
10%
tuning
10%
wafers
10%
resonators
10%
wire
10%
spectroscopy
10%
membranes
10%
boron nitrides
9%
performance
9%
interference
9%
optoelectronic devices
9%
proximity
8%
sensors
8%
mechanical oscillators
8%
tungsten
7%
Chemical Compounds
Semiconductor
73%
Diamond
59%
Tunneling
37%
Optoelectronics
33%
Band Bending
33%
Charge Transfer
21%
Nanomaterial
21%
Ambient Reaction Temperature
20%
Crystal Point Defect
17%
Monolayer
17%
Adatoms
16%
Molybdenum Disulfide
16%
Plastic Property
16%
Mechanics
15%
Ionization
14%
Exciton
14%
Statistical Ensemble
13%
Environment
13%
Boron Nitride
13%
Tungsten
12%
Nanowire
12%
Electron Spin
11%
Metal Oxide
11%
Application
11%
Diselenide
11%
Probe
11%
Hydroxide
11%
Compound Mobility
10%
Band Gap
10%
Doping Material
10%
Graphene
9%
Magnetic Field
9%
Alloy
9%
Hydrogen
9%
Surface
9%
Hexagonal Space Group
9%
Flow
9%
Resistance
8%
Transition Element
7%
Silicon Carbide
7%
Time
7%
Acceptor Level
7%
Spectroscopy
7%
Magnetic Resonance
7%
Composite Material
6%
Chalcogen
6%
Electrical Property
6%
Schottky Barrier
6%
Density Functional Theory
6%
Electrochemical Cell Potential
5%