CLAS-NS: Solid State Science, LeRoy Eyring Center for (CSSS)

Fingerprint Dive into the research topics where CLAS-NS: Solid State Science, LeRoy Eyring Center for (CSSS) is active. These topic labels come from the works of this organization's members. Together they form a unique fingerprint.

Engineering & Materials Science

Substrates
Electrons
DNA
Transmission electron microscopy
Temperature
Molecular beam epitaxy
X rays
High resolution electron microscopy
Electron energy loss spectroscopy
Silicon
Imaging techniques
Electron microscopy
Electron holography
Nanostructures
Thin films
Nanoparticles
Heterojunctions
Metals
Chemical analysis
Microstructure
Semiconductor materials
Doping (additives)
Defects
Electron microscopes
Oxides
High electron mobility transistors
Nanowires
Solar cells
Crystals
Atoms
Diffraction
Molecules
Epitaxial growth
Annealing
Energy gap
Metallizing
Scattering
Crystalline materials
Catalysts
Proteins
Electrodes
Electron diffraction
Optical properties
Simulators
Gold
Semiconductor quantum wells
Oxygen
Tomography
Silver
Ions
Chemical vapor deposition
Electric properties
Semiconductor quantum dots
Electron beams
Indium
Diffraction patterns
Carbon
Structural properties
Composite materials
Oxidation
X ray diffraction
Energy dissipation
Synchrotrons
Data storage equipment
Grain boundaries
X ray lasers
Photoluminescence
Heating
Electric potential
Glass
Fabrication
Water
Sapphire
Diamonds
Aberrations
Nucleation
Scanning
Multilayers
Atomic force microscopy
Hydrides
Nitrides
Kinetics
Crystallography
Soldering alloys
Spectroscopy
Nanoindentation
Nitrogen
Microwaves
Buffer layers
Free electron lasers
Potable water
Experiments
Degradation
Scanning electron microscopy
Impurities
Microscopic examination
Nanostructured materials
Polarization
Transistors
Rutherford backscattering spectroscopy

Chemical Compounds

Substrates
Silicon
Metals
Electrons
Temperature
Molecular beam epitaxy
Transmission electron microscopy
DNA
X rays
Oxides
Nanoparticles
Chemical analysis
Nanostructures
Imaging techniques
High resolution electron microscopy
Thin films
Electron energy loss spectroscopy
Electron microscopy
Microstructure
Crystals
Atoms
Semiconductor materials
Defects
Molecules
Gold
Oxygen
Ions
Heterojunctions
Electron holography
Doping (additives)
Electron microscopes
Diffraction
Nanowires
Carbon
Epitaxial growth
Water
Annealing
Aluminum Oxide
Crystalline materials
Solar cells
Boron
Silver
Carbon Nanotubes
X ray lasers
Minerals
Energy gap
Catalysts
Electrodes
Tomography
Electron diffraction
High electron mobility transistors
X ray diffraction
Diamond
Scattering
Optical properties
Electric properties
Glass
Oxidation
Crystallography
Silicates
Chemical vapor deposition
Metallizing
Nanostructured materials
Hydrogen
Composite materials
Semiconductor quantum wells
Silicon Dioxide
Nitrogen
Semiconductor quantum dots
Diffraction patterns
Synchrotrons
Kinetics
Electron beams
Atomic force microscopy
Energy dissipation
Structural properties
Free electron lasers
Grain boundaries
Photoluminescence
Carbon Monoxide
Germanium
Experiments
Hydrides
Proteins
Soldering alloys
Graphite
Nanoindentation
Nucleation
Crystallization
Secondary ion mass spectrometry
Indium
Fabrication
Spectroscopy
Multilayers
Microwaves
Zinc Oxide
Buffer layers
Gases
Bearings (structural)
Self assembly

Physics & Astronomy

General

electron microscopy
transmission electron microscopy
holography
energy dissipation
thin films
electron microscopes
microstructure
defects
crystals
metals
simulation
electronics
energy
buffers
cells
mars
catalysts
vapor deposition
nanocrystals
synthesis
aberration
solders
crystallography
profiles
damage
free electron lasers
atomic force microscopy
probes
metalorganic chemical vapor deposition
minerals
microscopy
nanoindentation
grain boundaries
scanning electron microscopy
insulators
crystal defects
kinetics
electric contacts
microwaves

Physics

electrons
electron energy
diffraction
electron diffraction
temperature
optical properties
nanoparticles
electron beams
quantum wells
room temperature
diffraction patterns
atoms
photoluminescence
ions
ion beams
polarization
valence

Engineering

high resolution
x rays
nanowires
annealing
scattering
high electron mobility transistors
electrical properties
quantum dots
scanning
electrodes
solar cells
nucleation
spatial resolution
transistors
field effect transistors
electrical resistivity
carbon nanotubes
backscattering
fabrication

Chemistry and Materials

molecular beam epitaxy
silicon
oxides
deoxyribonucleic acid
oxygen
proteins
sapphire
glass
nitrides
carbon
molecules
epitaxy
chemistry
silver
diamonds
superlattices
composite materials
oxidation
indium oxides
germanium
tin oxides

Aerospace Sciences

spectroscopy

Life Sciences

tomography
dosage
radiation damage