Carbon nanotube thin-film transistors featuring transfer-printed metal electrodes and a thin, self-grown aluminum oxide gate dielectric

Haeberle, T.; Loghin, F.; Zschieschang, U.; Klauk, H.; Lugli, P.

doi:10.1109/NANO.2015.7388946

Document type:: Konferenzbeitrag
Author(s):: Haeberle, T.; Loghin, F.; Zschieschang, U.; Klauk, H.; Lugli, P.
Title:: Carbon nanotube thin-film transistors featuring transfer-printed metal electrodes and a thin, self-grown aluminum oxide gate dielectric
Abstract:: We report on a novel fabrication scheme to define metal source and drain contacts for short-channel thin-film transistors utilizing a purely additive transfer-printing process. We demonstrate the viability of this approach by realizing carbon nanotube thin-film transistors featuring a very thin aluminum oxide gate dielectric The active layer of the transistors is spray-deposited from an aqueous carbon-nanotube suspension with 90% semiconducting content. Full gate control is demonstrated for gate-source voltages below 2.0 V. «
We report on a novel fabrication scheme to define metal source and drain contacts for short-channel thin-film transistors utilizing a purely additive transfer-printing process. We demonstrate the viability of this approach by realizing carbon nanotube thin-film transistors featuring a very thin aluminum oxide gate dielectric The active layer of the transistors is spray-deposited from an aqueous carbon-nanotube suspension with 90% semiconducting content. Full gate control is demonstrated for gate... »
Keywords:: III-V semiconductors, aluminium compounds, carbon nanotube field effect transistors, electrodes, nanofabrication, thin film transistors, three-dimensional printing, AlN, additive transfer-printing process, aqueous carbon-nanotube suspension, carbon nanotube thin-film transistors, drain contacts, fabrication scheme, full gate control, metal source, short-channel thin-film transistors, thin self-grown aluminum oxide gate dielectric, transfer-printed metal electrodes, Dielectrics, Logic gates, Metals, Printing, Silicon, Substrates, Thin film transistors, aluminum oxide, carbon nanotubes, thin-film transistors, transfer printing «
III-V semiconductors, aluminium compounds, carbon nanotube field effect transistors, electrodes, nanofabrication, thin film transistors, three-dimensional printing, AlN, additive transfer-printing process, aqueous carbon-nanotube suspension, carbon nanotube thin-film transistors, drain contacts, fabrication scheme, full gate control, metal source, short-channel thin-film transistors, thin self-grown aluminum oxide gate dielectric, transfer-printed metal electrodes, Dielectrics, Logic gates, Meta... »
Book / Congress title:: Nanotechnology (IEEE-NANO) , 2015 IEEE 15th International Conference on
Congress (additional information):: Rome, Italy, 27-30 July 2015 2015-07
Publisher:: IEEE Xplore Digital Library
Year:: 2015
Quarter:: 3. Quartal
Year / month:: 2015-07
Month:: Jul
Pages:: 160--163
Language:: en
Fulltext / DOI:: doi:10.1109/NANO.2015.7388946
WWW:: http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=7388946&queryText=Carbon+nanotube+thin-film+transistors+featuring+transfer-printed+metal+electrodes+and+a+thin,+self-grown+aluminum+oxide+gate+dielectric&newsearch=true
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Occurrences:

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Nano- und Quantensensorik (Prof. Weig)Prof. Dr. rer. nat. Paolo Lugli – LSt Nanoelectronics 2015

mediaTUM Gesamtbestand Hochschulbibliographie 2015 Fakultäten Elektrotechnik und Informationstechnik Lehrstuhl für Nanoelektronik (Prof. Lugli)