Flexible Low-Voltage Organic Complementary Circuits: Finding the Optimum Combination of Semiconductors and Monolayer Gate Dielectrics

Low‐voltage p‐channel and n‐channel organic transistors with channel lengths down to 0.5 μm using four small‐molecule semiconductors and ultra‐thin dielectrics based on two different phosphonic acid monolayers are fabricated on plastic substrates and studied in terms of effective mobility, intrinsic...

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Veröffentlicht in:	Advanced materials (Weinheim) 2015-01, Vol.27 (2), p.207-214
Hauptverfasser:	Kraft, Ulrike, Sejfić, Mirsada, Kang, Myeong Jin, Takimiya, Kazuo, Zaki, Tarek, Letzkus, Florian, Burghartz, Joachim N., Weber, Edwin, Klauk, Hagen
Format:	Artikel
Sprache:	eng
Schlagworte:	Channels Circuits complementary ring oscillators Contact resistance Dielectrics flexible electronics Monolayers Optimization organic thin-film transistors self-assembled monolayers Semiconductors Signal delay
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container_title	Advanced materials (Weinheim)
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creator	Kraft, Ulrike Sejfić, Mirsada Kang, Myeong Jin Takimiya, Kazuo Zaki, Tarek Letzkus, Florian Burghartz, Joachim N. Weber, Edwin Klauk, Hagen
description	Low‐voltage p‐channel and n‐channel organic transistors with channel lengths down to 0.5 μm using four small‐molecule semiconductors and ultra‐thin dielectrics based on two different phosphonic acid monolayers are fabricated on plastic substrates and studied in terms of effective mobility, intrinsic mobility and contact resistance. For the optimum materials combination, flexible complementary circuits have signal delays of 3.1 μs at 5 V
doi_str_mv	10.1002/adma.201403481
format	Article
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subjects	Channels Circuits complementary ring oscillators Contact resistance Dielectrics flexible electronics Monolayers Optimization organic thin-film transistors self-assembled monolayers Semiconductors Signal delay
title	Flexible Low-Voltage Organic Complementary Circuits: Finding the Optimum Combination of Semiconductors and Monolayer Gate Dielectrics
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