Enhanced performance of AlOx-based organic thin-film transistors

D.T. Ashall; D. Ashall; S.J. Fakher; M.F. Mabrook

doi:10.1109/NANO.2011.6144540

Enhanced performance of AlOx-based organic thin-film transistors

D.T. Ashall
, D. Ashall
, S.J. Fakher
, M.F. Mabrook

Research output: Contribution to conference › Paper

Abstract

The performance of thin-film transistors based on an aluminum oxide gate dielectric and a pentacene semiconductor have been systematically enhanced by modification of the oxide surface. The oxide layer was formed at room temperature using a standard anodization technique. The effects of surface modification of the oxide layer on device performance have been investigated. Higher mobility transistors were fabricated by passivating the oxide layer with a self-assembled molecular monolayer of an alkyl phosphonic acid or a spin-coated acrylic film. In both cases the normalized sub-threshold swing was reduced by a factor of 1.9 and 1.5, and the maximum charge-carrier mobility was increased by one and two orders of magnitudes respectively. The much increased mobility for transistors modified by a thin film of polymethylmethacrylate (PMMA) is attributed to the larger pentacene grain size.

Original language	English
Pages	61-66
DOIs	https://doi.org/10.1109/NANO.2011.6144540
Publication status	Published - 15 Aug 2011
Event	Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference, Portland OR., 15-18 August, 2011 - Duration: 3 Jan 0001 → …

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Conference	Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference, Portland OR., 15-18 August, 2011
Period	3/01/01 → …

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10.1109/NANO.2011.6144540

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title = "Enhanced performance of AlOx-based organic thin-film transistors",

abstract = "The performance of thin-film transistors based on an aluminum oxide gate dielectric and a pentacene semiconductor have been systematically enhanced by modification of the oxide surface. The oxide layer was formed at room temperature using a standard anodization technique. The effects of surface modification of the oxide layer on device performance have been investigated. Higher mobility transistors were fabricated by passivating the oxide layer with a self-assembled molecular monolayer of an alkyl phosphonic acid or a spin-coated acrylic film. In both cases the normalized sub-threshold swing was reduced by a factor of 1.9 and 1.5, and the maximum charge-carrier mobility was increased by one and two orders of magnitudes respectively. The much increased mobility for transistors modified by a thin film of polymethylmethacrylate (PMMA) is attributed to the larger pentacene grain size.",

author = "D.T. Ashall and D. Ashall and S.J. Fakher and M.F. Mabrook",

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doi = "10.1109/NANO.2011.6144540",

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AU - Ashall, D.T.

AU - Ashall, D.

AU - Fakher, S.J.

AU - Mabrook, M.F.

PY - 2011/8/15

Y1 - 2011/8/15

N2 - The performance of thin-film transistors based on an aluminum oxide gate dielectric and a pentacene semiconductor have been systematically enhanced by modification of the oxide surface. The oxide layer was formed at room temperature using a standard anodization technique. The effects of surface modification of the oxide layer on device performance have been investigated. Higher mobility transistors were fabricated by passivating the oxide layer with a self-assembled molecular monolayer of an alkyl phosphonic acid or a spin-coated acrylic film. In both cases the normalized sub-threshold swing was reduced by a factor of 1.9 and 1.5, and the maximum charge-carrier mobility was increased by one and two orders of magnitudes respectively. The much increased mobility for transistors modified by a thin film of polymethylmethacrylate (PMMA) is attributed to the larger pentacene grain size.

AB - The performance of thin-film transistors based on an aluminum oxide gate dielectric and a pentacene semiconductor have been systematically enhanced by modification of the oxide surface. The oxide layer was formed at room temperature using a standard anodization technique. The effects of surface modification of the oxide layer on device performance have been investigated. Higher mobility transistors were fabricated by passivating the oxide layer with a self-assembled molecular monolayer of an alkyl phosphonic acid or a spin-coated acrylic film. In both cases the normalized sub-threshold swing was reduced by a factor of 1.9 and 1.5, and the maximum charge-carrier mobility was increased by one and two orders of magnitudes respectively. The much increased mobility for transistors modified by a thin film of polymethylmethacrylate (PMMA) is attributed to the larger pentacene grain size.

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DO - 10.1109/NANO.2011.6144540

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T2 - Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference, Portland OR., 15-18 August, 2011

Y2 - 3 January 0001

ER -

Enhanced performance of AlOx-based organic thin-film transistors

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