The electrostatic coupling between singled-walled carbon nanotube (SWCNT) networks/arrays and planar gate electrodes in thin-film transistors (TFTs) is analyzed both in the quantum limit with an analytical model and in the classical limit with finite-element modeling. The computed capacitance depends on both the thickness of the gate dielectric and the average spacing between the tubes, with some dependence on the distribution of these spacings. Experiments on transistors that use submonolayer, random networks of SWCNTs verify certain aspects of these calculations. The results are important for the development of networks or arrays of nanotubes as active layers in TFTs and other electronic devices.

Topics
Electrostatic screening, Electronic devices, Field effect transistors, Quantum effects, Thin film transistors, Electric measurements, Dielectric materials, Finite-element analysis, Nanotubes, Quantum limit
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© 2007 American Institute of Physics.
2007
American Institute of Physics
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