Abstract
Using high-resolution silicon stencil masks and employing a resist-free, solvent-free, low-temperature (90 °C) fabrication process we have fabricated low-voltage top-contact organic thin-film transistors (TFTs) with a channel length down to 0.8 µm. To observe the scaling requirements and to alleviate short-channel effects, a thin gate dielectric with a thickness of 5.3 nm is employed. The p-channel TFTs have a record static performance, with a transconductance of 1 S/m, an on/off current ratio of 108, and a subthreshold swing of 100 mV/dec. Unipolar inverters based on p-channel TFTs with a channel length of 1 µm and gate-to-source and gate-to-drain overlaps of 2 µm respond to input signals with frequencies up to 1 MHz. Combining air-stable p-channel and n-channel TFTs we have also realized organic complementary ring oscillators with record low-voltage dynamic performance (signal delay of 30 µs per stage at a supply voltage of 3 V).
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