Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids

Ikue Hirata; Ute Zschieschang; Frederik Ante; Tomoyuki Yokota; Kazunori Kuribara; Tatsuya Yamamoto; Kazuo Takimiya; Masaaki Ikeda; Hirokazu Kuwabara; Hagen Klauk; Tsuyoshi Sekitani; Takao Someya

doi:10.1557/mrc.2011.11

Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids

Ikue Hirata, Ute Zschieschang, Frederik Ante, Tomoyuki Yokota, Kazunori Kuribara, Tatsuya Yamamoto, Kazuo Takimiya, Masaaki Ikeda, Hirokazu Kuwabara, Hagen Klauk, Tsuyoshi Sekitani, Takao Someya

SCI - Chemistry

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Low-voltage-driven organic thin-film transistors (organic TFTs) with spatially controlled threshold voltages (−1.2 and −0.36 V) were fabricated for the first time. Using the microcontact printing method, tetradecylphosphonic acid (HC14-PA) and pentadecylfluoro-octadecylphosphonic acid (FC18-PA) were transferred to form ultrathin layers in different regions on a substrate. Together with plasma-grown aluminum oxide (AlO_x) layer, the stamped layers were shown to have equal insulating ability as the dipped method monolayer. The feasibility of the area-selective stamping method was displayed using locally controlled inverter circuits. The shift of turn-on voltage for those transistors was consistent with the threshold voltage shift of the transistors.

Original language	English
Pages (from-to)	33-36
Number of pages	4
Journal	MRS Communications
Volume	1
Issue number	1
DOIs	https://doi.org/10.1557/mrc.2011.11
Publication status	Published - 2011 Nov 1

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Hirata, I., Zschieschang, U., Ante, F., Yokota, T., Kuribara, K., Yamamoto, T., Takimiya, K., Ikeda, M., Kuwabara, H., Klauk, H., Sekitani, T., & Someya, T. (2011). Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids. MRS Communications, 1(1), 33-36. https://doi.org/10.1557/mrc.2011.11

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abstract = "Low-voltage-driven organic thin-film transistors (organic TFTs) with spatially controlled threshold voltages (−1.2 and −0.36 V) were fabricated for the first time. Using the microcontact printing method, tetradecylphosphonic acid (HC14-PA) and pentadecylfluoro-octadecylphosphonic acid (FC18-PA) were transferred to form ultrathin layers in different regions on a substrate. Together with plasma-grown aluminum oxide (AlOx) layer, the stamped layers were shown to have equal insulating ability as the dipped method monolayer. The feasibility of the area-selective stamping method was displayed using locally controlled inverter circuits. The shift of turn-on voltage for those transistors was consistent with the threshold voltage shift of the transistors.",

author = "Ikue Hirata and Ute Zschieschang and Frederik Ante and Tomoyuki Yokota and Kazunori Kuribara and Tatsuya Yamamoto and Kazuo Takimiya and Masaaki Ikeda and Hirokazu Kuwabara and Hagen Klauk and Tsuyoshi Sekitani and Takao Someya",

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Hirata, I, Zschieschang, U, Ante, F, Yokota, T, Kuribara, K, Yamamoto, T, Takimiya, K, Ikeda, M, Kuwabara, H, Klauk, H, Sekitani, T & Someya, T 2011, 'Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids', MRS Communications, vol. 1, no. 1, pp. 33-36. https://doi.org/10.1557/mrc.2011.11

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T1 - Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids

AU - Hirata, Ikue

AU - Zschieschang, Ute

AU - Ante, Frederik

AU - Yokota, Tomoyuki

AU - Kuribara, Kazunori

AU - Yamamoto, Tatsuya

AU - Takimiya, Kazuo

AU - Ikeda, Masaaki

AU - Kuwabara, Hirokazu

AU - Klauk, Hagen

AU - Sekitani, Tsuyoshi

AU - Someya, Takao

PY - 2011/11/1

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AB - Low-voltage-driven organic thin-film transistors (organic TFTs) with spatially controlled threshold voltages (−1.2 and −0.36 V) were fabricated for the first time. Using the microcontact printing method, tetradecylphosphonic acid (HC14-PA) and pentadecylfluoro-octadecylphosphonic acid (FC18-PA) were transferred to form ultrathin layers in different regions on a substrate. Together with plasma-grown aluminum oxide (AlOx) layer, the stamped layers were shown to have equal insulating ability as the dipped method monolayer. The feasibility of the area-selective stamping method was displayed using locally controlled inverter circuits. The shift of turn-on voltage for those transistors was consistent with the threshold voltage shift of the transistors.

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Spatial control of the threshold voltage of low-voltage organic transistors by microcontact printing of alkyl- and fluoroalkyl-phosphonic acids

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