Patterning rubrene crystalline thin films for sub-micrometer channel length field-effect transistor arrays
Zhu J, Wang W, Zhong Q, Li L, Du C, Lv A, Wang H, Fuchs H, Chi LF
Research article (journal) | Peer reviewedAbstract
In this communication, a direct coupling of patterned growth of rubrene crystalline thin films with OFET fabrication is presented. The film was grown between pre-patterned Au electrodes covered with an organic monolayer, which directly allowed the fabrication of OFET devices with a sub-micrometer channel length. More importantly, close packed and porous film structures can be controlled by adjusting the space between the electrodes, resulting in a two orders of magnitude difference in carrier mobility. The technique is completely compatible with lithography methods thus may find potential applications in addressable and crosstalk suppressing OFET arrays.
Details about the publication
Journal: Journal of Materials Chemistry C
Volume: 2
Issue: 44
Page range: 9359-9363
Status: Published
Release year: 2014
Language in which the publication is written: English
DOI: 10.1039/C4TC01590H
Keywords: rubrene crystalline; OFET devices; carrier mobility; with lithography
Authors from the University of Münster
| Chi, Lifeng | Interface Physics Group (Prof. Fuchs) |
| Du, Chuan | Institute of Physics (PI) |
| Fuchs, Harald | Interface Physics Group (Prof. Fuchs) |
| Li, Liqiang | Institute of Physics (PI) |
| Wang, Wenchong | Interface Physics Group (Prof. Fuchs) |