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Graphene is a one-atom-thick planar sheet of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice. The term Graphene was coined as a combination of graphite and the suffix -ene by Hanns-Peter Boehm, who described single-layer carbon foils in 1962. Graphene is most easily visualized as an atomic-scale chicken wire made of carbon atoms and their bonds. The crystalline or "flake" form of graphite consists of many graphene sheets stacked together.
Learn more about quantum dots from the many resources on this site, listed below. More information on Graphene can be found here.
Electronic Structure and Transport Properties of Graphene on Hexagonal Boron Nitride
06 Dec 2018 | Contributor(s):: Shukai Yao, Luis Regalado Bermejo, Alejandro Strachan
Graphene is a zero-bandgap conductor with high carrier mobility. It is desired to search for an opening of band structure of graphene such that this kind of material can be applied in electronic devices. Depositing hexagonal Boron Nitride (h-BN) opens a bandgap in the band structure of...
Notas de internet (vínculos)
Surprise graphene discovery could unlock secrets of superconductivity https://www.nature.com/articles/d41586-018-02773-w
GIFTLIN GEORGE G PRK17PH1016
Edison Aguiar de Souza Neto
Graphene Raman Fitting Tool
29 May 2018 | | Contributor(s):: Matthew Glen Robertson, Darren K Adams, Elif Ertekin
Analyze Raman spectra from graphene
A Z M Nowzesh Hasan
Guruprasad S Hegde
UCSB Graphene Nanoribbon Interconnect Compact Model
20 Apr 2017 | Compact Models | Contributor(s):
By Junkai Jiang1, Kaustav Banerjee1, Wei Cao2
1. University of California, Santa Barbara 2. University of California Santa Barbara
This model describes the circuit-level behavior of the (intercalation) doped GNR interconnect, and is compatible with both DC and transient SPICE simulations.
Ahmed M Abdelgawad
jesus alexis Gonzalez
Modeling of Inter-ribbon Tunneling in Graphene
11 Nov 2016 | | Contributor(s):: Maarten Van de Put, William Gerard Hubert Vandenberghe, Massimo V Fischetti
IWCE presentation. In this paper we investigate the finite-size effect in nano-scaled graphene flakes. Improving on the bulk description, and because the structures are – atomistically speaking – large in size, we use the empirical pseudopotential method.