Optical, photonic and optoelectronic properties of graphene, h-BN and their hybrid materials

Optical, photonic and optoelectronic properties of graphene, h-BN and their hybrid materials AbstractBecause of the linear dispersion relation and the unique structure of graphene’s Dirac electrons, which can be tuned the ultra-wide band, this enables more applications in photonics, electronics and plasma optics. As a substrate, hexagonal boron nitride (h-BN) has an atomic level flat surface without dangling bonds, a weak doping effect and a response in the far ultraviolet area. So the graphene/h-BN heterostructure is very attractive due to its unique optical electronics characteristics. Graphene and h-BN which are stacked in different ways could open the band gap of graphene, and form a moiré pattern for graphene on h-BN and the superlattice in the Brillouin zone, which makes it possible to build photoelectric devices. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nanophotonics de Gruyter

Optical, photonic and optoelectronic properties of graphene, h-BN and their hybrid materials

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Publisher
de Gruyter
Copyright
©2017, Fengcai Ma, Mengtao Sun et al., published by De Gruyter.
ISSN
2192-8614
eISSN
2192-8614
D.O.I.
10.1515/nanoph-2017-0015
Publisher site
See Article on Publisher Site

Abstract

AbstractBecause of the linear dispersion relation and the unique structure of graphene’s Dirac electrons, which can be tuned the ultra-wide band, this enables more applications in photonics, electronics and plasma optics. As a substrate, hexagonal boron nitride (h-BN) has an atomic level flat surface without dangling bonds, a weak doping effect and a response in the far ultraviolet area. So the graphene/h-BN heterostructure is very attractive due to its unique optical electronics characteristics. Graphene and h-BN which are stacked in different ways could open the band gap of graphene, and form a moiré pattern for graphene on h-BN and the superlattice in the Brillouin zone, which makes it possible to build photoelectric devices.

Journal

Nanophotonicsde Gruyter

Published: Jun 22, 2017

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