Study of graphene plasmons in graphene-MoS2 heterostructures for optoelectronic integrated devices.

@article{Liu2017StudyOG,
  title={Study of graphene plasmons in graphene-MoS2 heterostructures for optoelectronic integrated devices.},
  author={Ruina Liu and Baoxin Liao and Xiang-dong Guo and Debo Hu and Hai Hu and Luojun Du and Hua Yu and Guangyu Zhang and Xiaoxia Yang and Qing Dai},
  journal={Nanoscale},
  year={2017},
  volume={9 1},
  pages={
          208-215
        }
}
The performance of electronic circuits is becoming limited by on-chip digital information transmission. Graphene plasmons with ultra-high confinement and low damping rates offer an effective solution to this problem as they allow for the implementation of optical interconnects. However, direct contact with the semiconductor always deteriorates the plasmonic properties due to large damping of the plasmon in the semiconductor. Here, we studied graphene plasmons in heterostructures of graphene and… 
View on PubMed
rsc.org
28 Citations
Background Citations
4

Figures from this paper

28 Citations

Citation Type

Citation Type

Efficient All-Optical Plasmonic Modulators with Atomically Thin Van Der Waals Heterostructures.
TLDR
The demonstration of the efficient all-optical mid-infrared plasmonic modulators, with chip-scale integrability and deep-sub wavelength light field confinement derived from the van der Waals heterostructures, may be an important step toward on-chip all- optical devices.
Evaluation of Transport Parameters in MoS2/Graphene Junction Devices Fabricated by Chemical Vapor Deposition.
TLDR
The SPCM revealed the presence of the depletion layer at the heterojunction, whereas graphene provided an excellent electrical contact for the MoS2 layer without resulting in a rectifying behavior, even if they were anchored within a very short range.
Higher order Fano graphene metamaterials for nanoscale optical sensing.
TLDR
Higher order Fano modes are created by designing asymmetric metamaterials comprised of a split-ring resonator and disk with a low-loss graphene plasmon that promise a high-performance nanoscale optical sensor.
Multiple Fano Resonances with Tunable Electromagnetic Properties in Graphene Plasmonic Metamolecules
TLDR
A graphene plasmonic metamolecule (PMM) is proposed by adding an additional 12 nanodiscs around a graphene heptamer, where two Fano resonance modes with different wavelengths are observed in the extinction spectrum.
Electrostatically driven scalable synthesis of MoS2–graphene hybrid films assisted by hydrophobins
Liquid processing of 2D crystals offers scalable strategies for the production of 2D materials. Herein, we produce the hybrids of MoS2/graphene, consisting of few-layered nanosheets of luminescent
High-performance infrared Ge-based plasmonic photodetector enhanced by dual absorption mechanism
A sub-wavelength plasmonic Au–Ge grating was used to enhance the responsivity of Ge-based metal–semiconductor–metal photodetectors at infrared communication wavelengths. Furthermore, a
A computational study on the quantum transport properties of silicene–graphene nano-composites
Graphene has been conjugated with Silicene which is a 2D nanosheet of silicon crystal to analyze myriad physico-chemical properties. Upon intercalation of silicene between two graphene nanosheets,
Electron dynamics in MoS2-graphite heterostructures.
TLDR
It is found that photocarriers injected into monolayer MoS2 transfer to graphite on an ultrafast time scale shorter than 400 fs, which is key to the development of high performance optoelectronic devices withMoS2 as the light absorbing layer and graphite as electrodes.
Local-field-enhanced and polarisation-sensitive graphene/MoS2 film on side-polished fibre with coated Au film
Nanomaterial-Based Plasmon-Enhanced Infrared Spectroscopy.
TLDR
The significant progress achieved in the past decades is reviewed, along with the current state of the art of SEIRA, and perspectives on potential applications, including single-molecule detection and in vivo bioassays are presented.
...
1
2
3
...

References

SHOWING 1-10 OF 87 REFERENCES
Broadly tunable graphene plasmons using an ion-gel top gate with low control voltage.
TLDR
These properties make ion-gels an effective dielectric for broadly tunable graphene plasmonic devices, such as new optical modulators, filters and wavelength multiplexers, which would be beneficial in tunable infrared and terahertz optical element applications.
Graphene Plasmonics: Challenges and Opportunities
Graphene plasmons are rapidly emerging as a viable tool for fast electrical manipulation of light. The prospects for applications to electro-optical modulation, optical sensing, quantum plasmonics,
Highly confined low-loss plasmons in graphene-boron nitride heterostructures.
TLDR
This Article exploits near-field microscopy to image propagating plasmons in high-quality graphene encapsulated between two films of hexagonal boron nitride (h-BN), and finds unprecedentedly low plasmon damping combined with strong field confinement and confirms the high uniformity of this plAsmonic medium.
Lateral graphene p-n junctions formed by the graphene/MoS₂ hybrid interface.
TLDR
The fabrication and characterization of graphene p-n junctions based on graphene/MoS2 hybrid interfaces are reported, which suggest that the atomic thin hybrid structure can remarkably extend the device applications.
Graphene plasmonics for tunable terahertz metamaterials.
TLDR
It is demonstrated that graphene plasmon resonances can be tuned over a broad terahertz frequency range by changing micro-ribbon width and in situ electrostatic doping and the results represent a first look at light-plasmon coupling in graphene and point to potential graphene-based terAhertz metamaterials.
Graphene/MoS2 hybrid technology for large-scale two-dimensional electronics.
TLDR
This paper demonstrates a novel technology for constructing large-scale electronic systems based on graphene/molybdenum disulfide (MoS2) heterostructures grown by chemical vapor deposition, and provides a systematic comparison of the graphene/MoS 2 heterojunction contact to more traditional MoS2-metal junctions.
High Q-factor plasmonic resonators in continuous graphene excited by insulator-covered silicon gratings
We propose a structure to excite plasmons in large-area continuous graphene films with insulator-covered sub-wavelength silicon gratings (ICSWSG). By numerical simulations we have demonstrated that,
Optical nano-imaging of gate-tunable graphene plasmons
TLDR
A successful alliance between nanoelectronics and nano-optics enables the development of active subwavelength-scale optics and a plethora of nano-optoelectronic devices and functionalities, such as tunable metamaterials, nanoscale optical processing, and strongly enhanced light–matter interactions for quantum devices and biosensing applications.
Graphene plasmonics
NATURE PHOTONICS | VOL 6 | NOVEMBER 2012 | www.nature.com/naturephotonics 749 Graphene, a two-dimensional (2D) form of carbon in which the atoms are arranged in a honeycomb lattice1,2, has already
Mobility engineering and a metal-insulator transition in monolayer MoS₂.
TLDR
Electrical transport measurements on MoS₂ FETs in different dielectric configurations are reported, showing clear evidence of the strong suppression of charged-impurity scattering in dual-gate devices with a top-gate dielectrics and a weaker than expected temperature dependence.
...
1
2
3
4
5
...