Add to ORKGThe results of simulation of the electron scattering rates in a single graphene layer without substrate are presented. High mobility of charge carriers, maximally obtained among all known materials, makes graphene a promising material for the creation of new semiconductor devices with good output characteristics. The prevalence of electron-electron scattering over other types of scattering in the region of moderate field energy in a single graphene layer is established. The investigated dependences of the rates of carrier scattering will enable to obtain the main characteristics of charge carrier transfer in semiconductor structures containing graphene layers by modeling using the Monte Carlo method
Graphene is an exciting new condensed matter system, both for the opportunity to observe the physics...
Folded single-layer graphene forms a system of two decoupled monolayers being only a few angstroms a...
Large variability of carrier mobility of graphene-based field effect transistors hampers graphene sc...
The results of modeling the scattering intensities of charge carriers in graphene located on a subst...
The results of simulation of electron transfer processes in a single graphene layer on a SiC substra...
The electronic transport properties of monolayer graphene are presented with an Ensemble Monte Carlo...
The results of modeling of electron transfer processes in a three-dimensional semiconductor structur...
The electronic transport properties of graphene and suspended (intrinsic) graphene sheets are studie...
WOS: 000378873900087The electronic transport properties of graphene and suspended (intrinsic) graphe...
Inelastic scattering and transmission of externally injected hot carriers across graphene layers are...
Some properties of the electron-electron collision operator in graphene are analyzed along with the ...
This paper presents the results of simulating the electron transfer processes in a three-dimensional...
9th International Physics Conference of the Balkan Physical Union, BPU 2015 --24 August 2015 through...
Contains fulltext : 34821.pdf (author's version ) (Closed access)We discuss variou...
The aim of this work is to simulate charge transport in a monolayer graphene on different substrates...
Graphene is an exciting new condensed matter system, both for the opportunity to observe the physics...
Folded single-layer graphene forms a system of two decoupled monolayers being only a few angstroms a...
Large variability of carrier mobility of graphene-based field effect transistors hampers graphene sc...
The results of modeling the scattering intensities of charge carriers in graphene located on a subst...
The results of simulation of electron transfer processes in a single graphene layer on a SiC substra...
The electronic transport properties of monolayer graphene are presented with an Ensemble Monte Carlo...
The results of modeling of electron transfer processes in a three-dimensional semiconductor structur...
The electronic transport properties of graphene and suspended (intrinsic) graphene sheets are studie...
WOS: 000378873900087The electronic transport properties of graphene and suspended (intrinsic) graphe...
Inelastic scattering and transmission of externally injected hot carriers across graphene layers are...
Some properties of the electron-electron collision operator in graphene are analyzed along with the ...
This paper presents the results of simulating the electron transfer processes in a three-dimensional...
9th International Physics Conference of the Balkan Physical Union, BPU 2015 --24 August 2015 through...
Contains fulltext : 34821.pdf (author's version ) (Closed access)We discuss variou...
The aim of this work is to simulate charge transport in a monolayer graphene on different substrates...
Graphene is an exciting new condensed matter system, both for the opportunity to observe the physics...
Folded single-layer graphene forms a system of two decoupled monolayers being only a few angstroms a...
Large variability of carrier mobility of graphene-based field effect transistors hampers graphene sc...