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Dive into the research topics where Marcin Mucha-Kruczynski is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
Chemical Compounds
Graphite
Band structure
Magnetic fields
Heterojunctions
Electrons
Rhenium
Monolayers
Valence bands
Energy gap
Substrates
Raman scattering
Fermi level
Hamiltonians
Topology
Electron transitions
Conduction bands
Carrier concentration
Quantum efficiency
Polarons
Quantum Hall effect
Carbon Nanotubes
Fermi surface
Crystals
Physics & Astronomy
Engineering
graphene
interlayers
Raman spectra
conduction bands
quantum Hall effect
Chemistry and Materials
boron nitrides
rhenium
superlattices
General
asymmetry
electronics
energy
Moire effects
topology
crystals
misalignment
fractals
Aerospace Sciences
Physics
flakes
electrons
valence
infrared absorption
photoelectric emission
electronic spectra
Mathematical and Computer Sciences
Engineering & Materials Science
Graphene
Band structure
Magnetic fields
Heterojunctions
Boron nitride
Electrons
Monolayers
Valence bands
Rhenium
Energy gap
Substrates
Raman scattering
Fermi level
Hamiltonians
Topology
Electron transitions
Conduction bands
Carrier concentration
Quantum efficiency
Polarons
Nanoribbons
Quantum Hall effect
Fermi surface
Crystals
