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SYOH: Organic and Hybrid Systems for Future Electronics
SYOH 4: Hybrid Systems and Devices
SYOH 4.2: Vortrag
Donnerstag, 11. März 2004, 17:00–17:15, H37
Submicron Polymer Field-Effect Transistors — •Susanne Scheinert1, Axel Scherer2, Theodor Doll1, Gernot Paasch3, and Ingo Hörselmann1 — 1TU Ilmenau — 2CALTECH, Pasadena, USA — 3IFW Dresden
Application-relevant speed of polymerelectronics requires transistors with submicrometer channel length. At present appropriate low-cost patterning does not exist. We prepared such transistors using a non-lithographic technique for the definition of the channel length in the submicron range. To avoid short-channel effects a hybrid design with silicon dioxide as gate insulator is used. As active layer different poly(3-alkythiophene) (P3AT) has been used. The transistors feature (i) controlled defined channel length between 0.75µ m and 1µ m, (ii) an operation at voltages lower than 5V, (iii) well pronounced saturation of the output characteristics with (iv) only marginal short channel effects, (v) a high on-off ratio (>104), (vi) rather small inverse subthreshold slope S≈ 0.5V/dec, and (vii) negligible contact resistances. Since the used P3AT were not especially treated, the mobility is still low (≈ 2...3cm2/Vs). The hysteresis is negligible for the drain voltage sweep for a given gate voltage, but as usual there is a hysteresis for the gate voltage sweep at given drain voltage. However, the corresponding threshold voltage shift is with ≈ 1V relatively small.