Отпечаток Узнайте самые подробные результаты анализа активности Кафедра электроники твердого тела. Указанные в этом разделе метки относятся к действиям этих участников организации. Вместе они формируют уникальную картину их активности.

Химические соединения

Graphite
Silicon
Hydrogen
Electronic structure
Electrons
Metals
Photoelectron spectroscopy
Semiconductor materials
Carbon
Atoms
Carbon Nanotubes
Substrates
Molecules
Conduction bands
Spectroscopy
Oxygen
X ray absorption
Fermi level
Electrolytes
Crystals
Temperature
Photoelectrons
Torsional stress
Oxides
X rays
Electroluminescence
Hydrides
Electronic states
Annealing
Photoemission
Capacitance
Monolayers
X ray photoelectron spectroscopy
Crystalline materials
Intercalation
Nanostructures
Defects
Nanoparticles
Semiconductor quantum wells
Nanoclusters
Luminescence
Synchrotron radiation
Electric space charge
Chemical analysis
Gold
Orbits
Oxidation
Nitrogen
Absorption spectra
Ions
Desorption
Screw dislocations
Amorphous alloys
Kinetics
X ray absorption spectroscopy
Band structure
Doping (additives)
Thin films
Nickel
Multilayers
Boron
Surface states
Transmission electron microscopy
Shear bands
Density functional theory
Energy gap
Core levels
Gases
Lithium
Nanowires
Anodes
Scanning tunneling microscopy
Decomposition
Raman spectroscopy
Valence bands
Solid solutions
Low energy electron diffraction
Germanium
Electric properties
Charge transfer
Metallic glass
Electron energy levels
Adsorption
Lasers
Cobalt
Stacking faults
Electron traps
Ultrathin films
Silicon Dioxide
Powders
Electric potential
Irradiation
Stainless Steel
Helium
Silicon oxides
Molecular beam epitaxy
Atomic layer deposition
Crystal atomic structure
Ionization
Electron resonance

Технические дисциплины и материаловедение

Graphene
Hydrogen
Electronic structure
Electrons
Semiconductor materials
Silicon
Photoelectron spectroscopy
Atoms
Carbon
Substrates
Metals
Spectroscopy
Fermi level
Molecules
Conduction bands
Temperature
Graphite
Hydrides
Torsional stress
Crystals
Capacitance
X ray absorption
Electrolytes
Annealing
X rays
Photoemission
Monolayers
Electronic states
Semiconductor quantum wells
Oxygen
Intercalation
Electroluminescence
X ray photoelectron spectroscopy
Nanoclusters
Electric space charge
Defects
Kinetics
Photoelectrons
Crystalline materials
Desorption
Synchrotron radiation
Nanoribbons
Nanoparticles
Orbits
Screw dislocations
Luminescence
Chemical analysis
Nanostructures
Absorption spectra
Amorphous alloys
Oxides
Surface states
Band structure
Carbon nanotubes
Core levels
Gold
Nitrogen
Thin films
Doping (additives)
Energy gap
Oxidation
Transmission electron microscopy
Shear bands
X ray absorption spectroscopy
Nickel
Decomposition
Low energy electron diffraction
Nanowires
Ions
Adsorption
Anodes
Solid solutions
Scanning tunneling microscopy
Density functional theory
Multilayers
Permeation
Valence bands
Electron energy levels
Raman spectroscopy
Boron
Electric properties
Management information systems
Metallic glass
Germanium
Charge carriers
Lithium
Irradiation
Ionization
Electron traps
Ultrathin films
Boron nitride
Electric potential
Storage rings
Dehydrogenation
Silicon oxides
Charge transfer
Molecular beam epitaxy
Resveratrol
Crystal atomic structure
Cones

Физика и астрономия

Engineering

graphene
x rays
conduction bands
capacitance-voltage characteristics
excitation
annealing
nanowires
irradiation
traps
capacitance
carbon nanotubes
space charge
electrical properties
fabrication
nanoclusters
MIS (semiconductors)
ionization

Chemistry and Materials

silicon
hydrogen
oxides
carbon
molecules
graphite
oxygen
pyrolytic graphite
hydrides
nickel
boron nitrides
silicon dioxide
nitrogen
germanium
silicon oxides
gold
oxidation
solid solutions
magnesium
sorption
adsorption
argon

Aerospace Sciences

spectroscopy
photoelectron spectroscopy
orbits
intercalation

General

electronic structure
insulators
electronics
defects
energy
torsion
interactions
metals
synthesis
crystals
desorption
screw dislocations
transmission electron microscopy
fine structure
ion microscopes
surface layers
kinetics
thresholds
thin films
atomic structure
wafers
ion implantation
metal films
oscillator strengths
electric fields
membranes
crystal defects
chemical composition
organic semiconductors
fragments
decomposition
microscopy
cones
absorption cross sections

Physics

electrons
electroluminescence
photoelectric emission
luminescence
electron attachment
electrolytes
quantum wells
photoelectrons
helium ions
cathodoluminescence
atoms
room temperature
temperature
ions
valence
synchrotron radiation
nanoparticles
ion beams
excitons
absorption spectra
photoluminescence
electron energy
diffraction