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Graphene for Electronics



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Autore: Kogan Eugene Visualizza persona
Titolo: Graphene for Electronics Visualizza cluster
Pubblicazione: Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica: 1 electronic resource (180 p.)
Soggetto topico: Physics
Soggetto non controllato: graphene
scattering
dephasing
relaxation time
band structure
tight-binding model
angle-resolved photoemission
electron scattering
augmented plane waves
nanoscroll
first-principle
Klein tunneling
borophene
Dirac fermions
electric field
valence charge density
image potential
image-plane position
image-potential states
liquid conductor
graphene solution
circulating system
microfluidic channel
temperature
optical power
CVD graphene
polycrystalline
grain size
single-crystalline grain
grain boundary (GB)
GB distribution
sheet resistance
transmission-line model measurement
Bose-Einstein condensation
superfluidity
dipolar exitons
low-dimensional semimetals
electronic transport in graphene
quantum hall effect
ion-selective field-effect transistor
sodium ions
real-time monitoring
mechanochemistry
graphene nanosheets
conductive ink
inkjet printing
printed electronics
Persona (resp. second.): KoganEugene
Sommario/riassunto: Graphene is an allotrope of carbon consisting of a single layer of atoms arranged in a two-dimensional (2D) honeycomb lattice. Graphene's unique properties of thinness and conductivity have led to global research into its applications as a semiconductor. With the ability to well conduct electricity at room temperature, graphene semiconductors could easily be implemented into the existing semiconductor technologies and, in some cases, successfully compete with the traditional ones, such as silicon. This reprint presents very recent results in the physics of graphene, which can be important for applying the material in electronics.
Titolo autorizzato: Graphene for Electronics  Visualizza cluster
ISBN: 3-0365-6167-6
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910639992603321
Lo trovi qui: Univ. Federico II
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