Transport in kinked bi-layer graphene interconnects

Transport in kinked bi-layer graphene interconnects

We present transport experiments on kinked bi-layer graphene nanoribbon interconnects. The studied devices consist of approximately 80 nm wide and 1 μm long bi-layer graphene nanoribbons with different lateral kink angles. We discuss the ambipolar transport characteristics and we show a systematic d...

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Hauptverfasser: Terres, B., Borgwardt, N., Dauber, J., Volk, C., Engels, S., Fringes, S., Weber, P., Wichmann, U., Stampfer, C., Trellenkamp, S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
bi-layer graphene
Charge carrier mobility
Charge carrier processes
Conductivity
Current measurement
Fabrication
Integrated circuit interconnections
interconnects
Substrates
transport
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Zusammenfassung:We present transport experiments on kinked bi-layer graphene nanoribbon interconnects. The studied devices consist of approximately 80 nm wide and 1 μm long bi-layer graphene nanoribbons with different lateral kink angles. We discuss the ambipolar transport characteristics and we show a systematic dependence of the overall conductance with the kink angle, i.e. with the shape of the etched bi-layer graphene nanoribbon. The measurements can be well described with the self-consistent Boltzmann equation for diffusive transport where the kinked angle appears to have an influence on the effective charge carrier mobility, thus revealing the presence of geometry-dependent ballistic transport effects. These results are crucial for the design and fabrication of future single-layer or bi-layer graphene interconnects in potential all-carbon monolithic systems.
DOI:10.1109/NEMS.2011.6017523