A 10 GHz cut-off frequency transistor based on epitaxial graphene nano ribbon

@article{Meng2010A1G,
  title={A 10 GHz cut-off frequency transistor based on epitaxial graphene nano ribbon},
  author={Nan Meng and J. Ferrer Fernandez and Dominique Vignaud and Gilles Dambrine and Henri Happy},
  journal={The 5th European Microwave Integrated Circuits Conference},
  year={2010},
  pages={294-297}
}
High frequency characterization of epitaxial-grown graphene nano ribbon based field-effect transistor (GNRFET) was investigated. The few layers graphene were synthesized by thermal decomposition of Si-faced silicon carbide. The intrinsic current gain cut-off frequency of 10 GHz was obtained. A small signal equivalent circuit model of this device was proposed which open a potentiality to the modelling of GNR based HF electronics. 

Similar Papers

Figures, Tables, and Topics from this paper.

Citations

Publications citing this paper.
SHOWING 1-6 OF 6 CITATIONS

Characterization and circuit modeling of Graphene Nano Ribbon field effect transistors

  • 2014 IEEE MTT-S International Microwave Symposium (IMS2014)
  • 2014
VIEW 1 EXCERPT
CITES BACKGROUND

High frequency characterization and compact electrical modelling of graphene field effect transistors

  • 2014 9th European Microwave Integrated Circuit Conference
  • 2014
VIEW 1 EXCERPT
CITES BACKGROUND

B1. Nanotechnology in RF and microwave applications: Review article

  • 2012 29th National Radio Science Conference (NRSC)
  • 2012
VIEW 1 EXCERPT
CITES BACKGROUND

RF model of a back-gated graphene field effect transistor

  • 2012 Asia Pacific Microwave Conference Proceedings
  • 2012
VIEW 2 EXCERPTS
CITES BACKGROUND

References

Publications referenced by this paper.
SHOWING 1-10 OF 21 REFERENCES

A Graphene Field-Effect Device

  • IEEE Electron Device Letters
  • 2007
VIEW 12 EXCERPTS
HIGHLY INFLUENTIAL

A novel graphene channel field effect transistor with Schottky tunneling source and drain

  • ESSDERC 2007 - 37th European Solid State Device Research Conference
  • 2007
VIEW 11 EXCERPTS
HIGHLY INFLUENTIAL