Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview
Carbon-based electronics is an emerging field. Its present progress is largely dominated by the materials science community due to the many still existing materials-related obstacles for realizing practically competitive transistors. Compared to graphene, carbon nanotubes provide better properties f...
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doaj-da759d5acfb849b6ab31dbc42dd851922021-03-29T18:41:57ZengIEEEIEEE Journal of the Electron Devices Society2168-67342013-01-011192010.1109/JEDS.2013.22446416471857Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art OverviewMichael Schroter0Martin Claus1Paulius Sakalas2M. Haferlach3Dawei Wang4Chair for Electron Devices and Integrated Circuits, TU Dresden, Dresden, GermanyChair for Electron Devices and Integrated Circuits, TU Dresden, Dresden, GermanyChair for Electron Devices and Integrated Circuits, TU Dresden, Dresden, GermanyRFNano Corporation, Newport Beach, CA, USARFNano Corporation, Newport Beach, CA, USACarbon-based electronics is an emerging field. Its present progress is largely dominated by the materials science community due to the many still existing materials-related obstacles for realizing practically competitive transistors. Compared to graphene, carbon nanotubes provide better properties for building field-effect transistors, and thus, have higher chances for eventually becoming a production technology.https://ieeexplore.ieee.org/document/6471857/Carbon electronicscarbon nanotubeCNTFETemerging technologyradio frequency (RF) transistors |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Michael Schroter Martin Claus Paulius Sakalas M. Haferlach Dawei Wang |
spellingShingle |
Michael Schroter Martin Claus Paulius Sakalas M. Haferlach Dawei Wang Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview IEEE Journal of the Electron Devices Society Carbon electronics carbon nanotube CNTFET emerging technology radio frequency (RF) transistors |
author_facet |
Michael Schroter Martin Claus Paulius Sakalas M. Haferlach Dawei Wang |
author_sort |
Michael Schroter |
title |
Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview |
title_short |
Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview |
title_full |
Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview |
title_fullStr |
Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview |
title_full_unstemmed |
Carbon Nanotube FET Technology for Radio-Frequency Electronics: State-of-the-Art Overview |
title_sort |
carbon nanotube fet technology for radio-frequency electronics: state-of-the-art overview |
publisher |
IEEE |
series |
IEEE Journal of the Electron Devices Society |
issn |
2168-6734 |
publishDate |
2013-01-01 |
description |
Carbon-based electronics is an emerging field. Its present progress is largely dominated by the materials science community due to the many still existing materials-related obstacles for realizing practically competitive transistors. Compared to graphene, carbon nanotubes provide better properties for building field-effect transistors, and thus, have higher chances for eventually becoming a production technology. |
topic |
Carbon electronics carbon nanotube CNTFET emerging technology radio frequency (RF) transistors |
url |
https://ieeexplore.ieee.org/document/6471857/ |
work_keys_str_mv |
AT michaelschroter carbonnanotubefettechnologyforradiofrequencyelectronicsstateoftheartoverview AT martinclaus carbonnanotubefettechnologyforradiofrequencyelectronicsstateoftheartoverview AT pauliussakalas carbonnanotubefettechnologyforradiofrequencyelectronicsstateoftheartoverview AT mhaferlach carbonnanotubefettechnologyforradiofrequencyelectronicsstateoftheartoverview AT daweiwang carbonnanotubefettechnologyforradiofrequencyelectronicsstateoftheartoverview |
_version_ |
1724196649397387264 |