Empreinte digitale Examinez les sujets de recherche où Luc Henrard est actif. Ces libellés de rubriques sont le fruit de recherches menées par cette personne. Ensemble, ils forment une empreinte digitale unique.
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composés chimiques
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Carbon Nanotubes
Nanotubes
Electron energy loss spectroscopy
Single-walled carbon nanotubes (SWCN)
Doping (additives)
Electronic properties
Nitrogen
Plasmons
Gold
Electron diffraction
Raman scattering
Silver
Carbon
Defects
Copper
Nanoparticles
Atoms
Scanning tunneling microscopy
Chemical vapor deposition
Electromagnetic wave absorption
Anisotropy
Fullerenes
Electrons
Energy dissipation
Spectroscopy
Chirality
Optical transitions
Nanostructures
Nanorings
Metamaterials
Substrates
Metal nanoparticles
Point defects
Density functional theory
Dimers
Electronic structure
Metal foil
Scanning
Raman spectroscopy
Heterojunctions
Imaging techniques
Experiments
Optical properties
Transport properties
Precious metals
Ballistics
Quantum electronics
Tensors
Electric fields
Physique & Astronomie
Engineering
carbon nanotubes
nanotubes
graphene
excitation
electrodynamics
Raman spectra
broadband
scanning
high resolution
General
energy dissipation
bundles
electronics
hollow
dipoles
simulation
tubes
energy
defects
scanning tunneling microscopy
anisotropy
absorbers
vapor deposition
electronic structure
optical transition
breathing
continuums
configurations
electron microscopes
Physics
electron energy
nanoparticles
plasmons
electron diffraction
optical properties
nitrogen atoms
ballistics
electrons
photonics
atoms
Aerospace Sciences
spectroscopy
Chemistry and Materials
nitrogen
carbon
fullerenes
gold
silver
dimers
chemical equilibrium
Mathematical and Computer Sciences
approximation
chirality
symmetry
Life Sciences
extinction
Ingénierie et Science des Matériaux
Graphene
Nanotubes
Electron energy loss spectroscopy
Carbon nanotubes
Single-walled carbon nanotubes (SWCN)
Doping (additives)
Electronic properties
Plasmons
Nitrogen
Gold
Electron diffraction
Nanoparticles
Atoms
Raman scattering
Energy dissipation
Silver
Metamaterials
Scanning tunneling microscopy
Electrons
Chemical vapor deposition
Carbon
Defects
Electromagnetic wave absorption
Copper
Anisotropy
Fullerenes
Substrates
Spectroscopy
Chirality
Nanostructures
Nanorings
Metal nanoparticles
Optical transitions
Density functional theory
Dimers
Metal foil
Scanning
Raman spectroscopy
Heterojunctions
Electronic structure
Electric fields
Imaging techniques
Experiments
Boron nitride
Geometry
Optical properties
Transport properties
Germanium
Precious metals
Ballistics