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Organic Complementary Oscillators With Stage-delays Below 1 μs

D. Bode, K. Myny, B. Verreet, B. V. D. Putten, Petar Bakalov, S. Steudel, S. Smout, P. Vicca, Jan Genoe, P. Heremans
Published 2010 · Physics

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Recently, complex circuits of organic thin-film transistors have been shown. The use of complementary logic can significantly ease the design of large integrated circuits. However, the performance of complementary logic in organic thin-film technology has not been able to equivale that of unipolar logic, due to the difficulty to densely integrate and simultaneously optimize p-type and n-type transistors on a single substrate. Here, we develop an optimized complementary process for C60 n-type and pentacene p-type transistors, both having bottom-gate bottom-contact geometry. Using this complementary technology, we show ring-oscillators with a stage-delay below 1 μs at a supply-voltage of 20 V. © 2010 American Institute of Physics.
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