Технические дисциплины и материаловедение
Nanocrystals
100%
Silicon
81%
Heterojunctions
77%
Substrates
71%
Raman scattering
70%
Phonons
67%
Nucleation
66%
Temperature
62%
Plasmons
59%
Semiconductor quantum wells
59%
Crystals
53%
Nanoantennas
52%
Adatoms
51%
Thin films
50%
Photoluminescence
48%
Annealing
48%
Plasmonics
47%
Nanoclusters
46%
Molecular beam epitaxy
42%
Diamonds
42%
Infrared absorption
39%
Oxides
38%
Epitaxial growth
38%
Graphene
37%
Oxidation
37%
Nanostructures
37%
Atomic force microscopy
34%
Magnetoresistance
34%
Photonic crystals
33%
Semiconductor materials
33%
Monolayers
32%
Etching
32%
Electrons
32%
Monocrystalline silicon
32%
Sublimation
30%
Silicides
29%
Crystallization
29%
High resolution transmission electron microscopy
28%
Vacancies
26%
Atoms
25%
Aluminum
24%
Polysilicon
24%
Amorphous silicon
24%
Luminescence
24%
Microscopes
24%
Electron microscopy
22%
Surface morphology
22%
Graphene quantum dots
22%
Nanoparticles
21%
Photons
21%
Molecules
20%
Magnetic fields
20%
Vibrational spectroscopy
20%
Spectroscopy
19%
Surface plasmon resonance
19%
X ray photoelectron spectroscopy
19%
Superconducting films
19%
Iron
19%
Germanium
19%
Molecular beams
19%
Anodic oxidation
18%
Excitons
18%
Oxygen
18%
Reflection high energy electron diffraction
18%
Crystal growth from melt
18%
Conduction bands
18%
Thermal evaporation
18%
Flexible electronics
17%
Spinodal decomposition
17%
Electron Transport
17%
Dislocations (crystals)
17%
Metallorganic chemical vapor deposition
16%
Electronic properties
16%
Hot Temperature
16%
Vanadium pentoxide
16%
Optical properties
15%
Arsenic
15%
Impurities
15%
Composite films
15%
Single crystals
14%
Crystal structure
13%
Electromigration
13%
Atmospheric humidity
13%
Structural properties
13%
Plasmas
13%
Ions
13%
Chemical analysis
12%
Point contacts
12%
Crystalline materials
12%
Electronic equipment
12%
Medical applications
12%
Membranes
12%
Doping (additives)
11%
Atomic layer epitaxy
11%
Light sources
11%
Deposition rates
11%
DNA
11%
Thermodynamic stability
11%
Thermal gradients
10%
Ultrahigh vacuum
10%
Физика и астрономия
nanocrystals
82%
silicon
70%
quantum wells
65%
oscillations
48%
nucleation
45%
quantum dots
42%
Raman spectra
41%
electrons
39%
oxidation
38%
photoluminescence
37%
surface plasmon resonance
36%
plasmons
36%
annealing
32%
infrared absorption
32%
augmentation
31%
nanoclusters
31%
electron gas
30%
oxides
30%
magnetic fields
29%
microscopes
28%
molecular beam epitaxy
28%
insulators
28%
disorders
27%
temperature
26%
atomic force microscopy
25%
phonons
24%
crystals
24%
thin films
23%
sublimation
23%
modulation
22%
photons
20%
adatoms
20%
spectroscopy
19%
retarding
19%
luminescence
18%
direct current
18%
microwaves
18%
probes
18%
diamonds
17%
epitaxy
16%
electron microscopy
16%
photonics
16%
decomposition
16%
conductivity
16%
iron
16%
spatial resolution
15%
cyclotron resonance
15%
microwave transmission
15%
etching
14%
light emission
14%
pens
14%
matrices
14%
aluminum
14%
steroids
14%
energy
14%
scattering
14%
hormones
13%
permeability
13%
critical temperature
13%
lithography
13%
temperature dependence
13%
excitons
13%
vortices
13%
electronics
13%
humidity
13%
solid phases
13%
fluorine
12%
embedding
12%
electromigration
12%
quantum Hall effect
12%
superconducting films
12%
metals
12%
gas density
12%
gas discharges
12%
superconductivity
12%
germanium
11%
smoothing
11%
arsenic
11%
scaling
11%
molecules
11%
vacuum chambers
11%
silicides
11%
transmission electron microscopy
11%
molecular beams
11%
Raman spectroscopy
10%
integers
10%
electron beams
10%
indium
10%
alignment
9%
passivity
9%
crystallization
9%
room temperature
9%
vibration mode
9%
dimers
9%
simulation
9%
life (durability)
9%
radiation
9%
alternating current
9%
oxygen
9%
shift
9%
Химические соединения
Nucleation
64%
Surface
57%
Molecular Beam Epitaxy
53%
Optical Phonon
47%
Nanocrystal
43%
Diamond
40%
Annealing
34%
Etching
33%
Quantum Dot
33%
Adatoms
32%
Photoluminescence
31%
Phonon
30%
Polycrystalline Solid
27%
Alloy
27%
Photonic Crystal
27%
Amorphous Silicon
24%
Atomic Force Microscopy
24%
Solid Phase Epitaxy
22%
Magnetoresistance
22%
Graphene
22%
Plasmon
22%
Nanodisc
21%
Oxide
21%
Mott Transition
20%
Sublimation
20%
Energy
19%
Monolayer
19%
Resistance
19%
Crystallization
18%
Negative Magnetoresistance
17%
Luminiscence Type
17%
Chemical Transformation
17%
Schottky Contact
17%
Monte Carlo Method
17%
Critical Volume
16%
Band Offset
16%
Electron Beam
16%
Tip-Enhanced Raman Spectroscopy
16%
Dielectric Function
16%
Subband
15%
Vacuum Chamber
15%
Graphene Nanoparticle
15%
Spinodal Decomposition
14%
Wet Oxidation
14%
Schottky Barrier
14%
Disorder
14%
Oxidation Reaction
14%
Simulation
14%
Flake Like Crystal
14%
Electron Microscopy
13%
Optical Property
13%
Humidity
13%
Nanomaterial
13%
Plasma
13%
Electron Particle
13%
Anodizing
12%
Permeability
12%
Molecular Beam
12%
Reflection
12%
Electromagnetic Field
12%
IR Absorption
12%
Optical Microscopy
12%
Hexagonal Space Group
12%
Nanoplatelet
12%
Atomic Layer Epitaxy
12%
Amount
12%
Crystal System
12%
Nonconductor
12%
Conduction Band
11%
Semiconductor
11%
Dielectric Material
11%
Flow
10%
Exciton
10%
Electron Transport
10%
Electronic Property
10%
Force
10%
Thermionic Emission
10%
Shape
10%
Scanning Electron Microscopy
10%
Electric Transport Property
9%
Organic Molecule
9%
Photoluminescence Spectroscopy
9%
Ab Initio Calculation
9%
Ion
9%
Time
9%
Reduction
8%
Voltage
8%
Dimension
8%
Ambient Reaction Temperature
8%
Suspension
8%
Interface State
8%
Surface Area
8%
Hot Electron
7%
Probe
7%