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HL: Halbleiterphysik
HL 61: Organische Halbleiter
HL 61.6: Vortrag
Mittwoch, 9. März 2005, 12:00–12:15, TU P270
Optimisation of contacts for downscaling of organic thin-film transistors — •M. Leufgen1, U. Bass1, M. Michelfeit1, T. Borzenko1, G. Schmidt1, J. Geurts1, L. W. Molenkamp1, and P. Mackie2 — 1Universität Würzburg, Physikalisches Institut (EPIII), Am Hubland, D-97074 Würzburg, Germany — 2Avecia Ltd., PO Box 42, Hexagon House, Blackley, Manchester M9 8ZS, UK
When downscaling the channel length of organic thin-film
transistors (OTFTs), the conductance is increasingly governed by
the electrical contact resistance. We verified this behaviour for
DH4T-based bottom-contact OTFTs with different contact metals
(Au/Ti, Pd). The electrical behaviour of the Au contacts was
hampered by the Ti adhesion layer, while the Pd contacts, although
electrically superior, suffered from insufficient mechanical
stability.
We report two alternative strategies to overcome these drawbacks:
(i)For Au/Ti, we developed a two-layer resist technique for UV
lithography. The resulting undercut guarantees smooth and
homogeneous metal contact edges, confirmed by SEM, and an improved
Au/DH4T-contact.
(ii)Sputtered Pt contacts have the necessary adhesion on SiO2
and a good contact to the organic layer. In
this context we optimised an e-beam lithography process, resulting
in an undercut in the resist combined with a sub-100 nm resolution
for large area structures (channel width of several 100 µm).
Operating devices were fabricated both by vacuum deposition of
DH4T and by spin cast deposition of diluted semiconducting
polymers.