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Modelling of Chirality-Dependent Current–Voltage Characteristics of Carbon-Nanotube Field-Effect Transistors
21
Citations
6
References
2006
Year
Device ModelingElectrical EngineeringElectronic DevicesCarbon-nanotube Field-effect TransistorsQuantum Capacitance LimitEngineeringNanoelectronicsElectronic EngineeringCarbon NanotechnologyApplied PhysicsCurrent–voltage CharacteristicsCarbon-based FilmsNanotubesCarbon NanotubesCarbon-nanotube ChiralitySemiconductor Device
Current–voltage characteristics of ballistic carbon-nanotube field-effect transistors are characterized with an iterative simulation program. The influence of carbon-nanotube chirality and diameter on the output current is considered. An analytical current–voltage expression under the quantum capacitance limit and low-voltage application is derived. Our simulation results are compared with actual measurement data.
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