Zurück zur Startseite
  • search Suche öffnen
  • AA
  • Menü menu
  • menu Menü öffnen
Publikationen
Materials

Fabrication of n- and p-Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self-Aligned Nanoimprinting

Materials
external-link-icon
Beteiligte Autoren der JOANNEUM RESEARCH:
Mag.a Dr.in Ursula PalfingerMag. Dr. Herbert GoldDI Dr. Georg JakopicMag.a Dr.in Barbara Stadlober
Autor*innen:
Palfinger, Ursula; Auner, Christoph; Gold, Herbert; Haase, Anja; Kraxner, Johanna; Haber, Thomas; Sezen, Meltem; Grogger, Werner; Domann, Gerhard; Jakopic, Georg; Krenn, Joachim R.; Stadlober, Barbara
Abstract:
A nanoimprinting process that enables fabrication of self-aligned p- and n-type organic thin film transistors with small channel lengths is presented. Nanoimprint lithography with back-side exposure permit precise definition of the channel length down to the submicrometer regime and a diminutive gate to source/drain overlap. The self-aligned manufacturing process enables transistor setups with minimized electrode overlaps resulting in distinct decrease of parasitic capacitances and considerable increase in transition frequency. Fully functional small channel OTFTs with p- and n-type semiconductors are fabricated on glass as well as on flexible substrates with transition frequencies up to 400 kHz.
Titel:
Fabrication of n- and p-Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self-Aligned Nanoimprinting
Seiten:
5115-5119
Publikationsdatum
2010

Publikationsreihe

Nummer
22
Beitrag
45
Proceedings
Advanced Materials
Weitere Dateien und links
https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.201001947
DOI-Url:
https://www.doi.org/ 10.1002/adma.201001947
Jahr/Monat:
2010
Bibtex Download

Ähnliche Publikationen

Digital
2024

Towards Higher Abstraction Levels in Quantum Computing

Autor*innen: Fürntratt, Hermann; Schnabl, Paul; Krebs, Florian; Unterberger, Roland; Zeiner, Herwig
Towards Higher Abstraction Levels in Quantum Computing
Digital
2023

An ANN Approach to Determine the Radar Cross Section of Non-Rotationally Symmetric Rain Drops

Autor*innen: Teschl, Franz; Thurai, Merhala; Steger, Sophie; Schönhuber, Michael; Teschl, Reinhard
An ANN Approach to Determine the Radar Cross Section of Non-Rotationally Symmetric Rain Drops
Digital
2023

An Examination of Soil Crusts on the Floor of Jezero Crater, Mars

Autor*innen: Hausrath, E. M.; Adcock, C. T.; Bechtold, A.; Beck, P.; Benison, K.; Brown, A.; Cardarelli, E. L.; Carman, N. A.; Chide, B.; Christian, J.; Clark, B. C.; Cloutis, E.; Cousin, A.; Forni, O.; Gabriel, T. S. J.; Gasnault, O.; Golombek, M.; Gómez, F.; Hecht, M. H.; Henley, T. L. J.; Huidobro, J.; Johnson, J.; Jones, M. W. M.; Kelemen, P.; Knight, A.; Lasue, J. A.; Mouélic, S. Le; Madariaga, J. M.; Maki, J.; Mandon, L.; Martinez, G.; Martínez-Frías, J.; McConnochie, T. H.; Meslin, P.-Y.; Zorzano, M.-P.; Newsom, H.; Paar, G.; Randazzo, N.; Royer, C.; Siljeström, S.; Schmidt, M. E.; Schröder, S.; Sephton, Mark A.; Sullivan, R.; Turenne, N.; Udry, A.; VanBommel, S.; Vaughan, A.; Wiens, R. C.; Williams, N.; team, the SuperCam; group, the Regolith working
An Examination of Soil Crusts on the Floor of Jezero Crater, Mars
Alle Publikationen anzeigen
close-icon

WONACH SUCHEN SIE?

Zur Detailsuche

Miteinander zukunftsrelevant

Die JOANNEUM RESEARCH ist Innovations- und Technologieanbieter im Bereich der angewandten Forschung. Als Forschungsgesellschaft der Länder und Regionen prägen wir mit unseren Forschungskompetenzen die Entwicklung unserer modernen Gesellschaft und Wirtschaft nachhaltig und menschenzentriert. Als multidisziplinäres Team in flexiblen, innovationsfreundlichen Strukturen leben wir höchste gesellschaftliche und wissenschaftliche Ansprüche.

KONTAKT
JOANNEUM RESEARCH
Forschungsgesellschaft mbH

Leonhardstraße 59, A-8010 Graz
+43 316 876-0
info@joanneum.at
Linkedin Profile
Facebook Profile
Youtube Profile
ResearchGate Profile
Instagram Profile
Follow us!

Services

Links

Skip to content