Open AccessElectronic properties of a carbon nanotube in a field-effect transistor structure: A first-principles study
Author(s) -
Kazuyuki Uchida,
Susumu Okada
Publication year - 2009
Publication title -
physical review b
Language(s) - English
Resource type - Journals
eISSN - 1538-4489
pISSN - 1098-0121
DOI - 10.1103/physrevb.79.085402
Subject(s) - materials science , carbon nanotube , carbon nanotube field effect transistor , capacitance , field effect transistor , electrode , carbon nanotube quantum dot , doping , transistor , electronic structure , semiconductor , electron , condensed matter physics , nanotechnology , nanotube , optoelectronics , physics , voltage , quantum mechanics
A first-principles electron-state calculation is performed to explore the electronic properties of a semiconductor carbon nanotube (CNT) in a field-effect transistor structure. Field-effect electron/hole doping results in a carrier distribution spread over the whole C-C network of the CNT, while accumulated charges, that explain the electrostatic capacitance C0 between the CNT and gate electrode, are concentrated in a small part of the CNT facing the gate electrode. We also demonstrate that the density of states structure of the CNT gives substantial bias dependences to the total capacitance C of the system
Accelerating Research
Robert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom
Address
John Eccles HouseRobert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom