Top dielectric induced ambipolarity in an n-channel dual-gated organic field effect transistor

Kaushik Bairagi; Elisabetta Zuccatti; Francesco Calavalle; Sara Catalano; Subir Parui; Roger Llopis; Frank Ortmann; Fèlix Casanova; Luis E. Hueso

doi:10.1039/c9tc02912e

Top dielectric induced ambipolarity in an n-channel dual-gated organic field effect transistor

Kaushik Bairagi, Elisabetta Zuccatti, Francesco Calavalle, Sara Catalano, Subir Parui, Roger Llopis, Frank Ortmann, Fèlix Casanova, Luis E. Hueso

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

5 Scopus citations

Abstract

The realization of both p-type and n-type operations in a single organic field effect transistor (OFET) is critical for simplifying the design of complex organic circuits. Typically, only p-type or n-type operation is realized in an OFET, while the respective counterpart is either suppressed by charge trapping or limited by the injection barrier with the electrodes. Here we show that only the presence of a top dielectric turns an n-type polymer semiconductor (N2200, Polyera ActiveInk™) into an ambipolar one, as detected from both bottom and top gated OFET operation. The effect is independent of the channel thickness and the top dielectric combinations. Variable temperature transfer characteristics show that both the electrons and holes can be equally transported through the bulk of the polymer semiconductor.

Original language	English
Pages (from-to)	10389-10393
Number of pages	5
Journal	Journal of Materials Chemistry C
Volume	7
Issue number	33
DOIs	https://doi.org/10.1039/c9tc02912e
State	Published - 2019
Externally published	Yes

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title = "Top dielectric induced ambipolarity in an n-channel dual-gated organic field effect transistor",

abstract = "The realization of both p-type and n-type operations in a single organic field effect transistor (OFET) is critical for simplifying the design of complex organic circuits. Typically, only p-type or n-type operation is realized in an OFET, while the respective counterpart is either suppressed by charge trapping or limited by the injection barrier with the electrodes. Here we show that only the presence of a top dielectric turns an n-type polymer semiconductor (N2200, Polyera ActiveInk{\texttrademark}) into an ambipolar one, as detected from both bottom and top gated OFET operation. The effect is independent of the channel thickness and the top dielectric combinations. Variable temperature transfer characteristics show that both the electrons and holes can be equally transported through the bulk of the polymer semiconductor.",

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T1 - Top dielectric induced ambipolarity in an n-channel dual-gated organic field effect transistor

AU - Bairagi, Kaushik

AU - Zuccatti, Elisabetta

AU - Calavalle, Francesco

AU - Catalano, Sara

AU - Parui, Subir

AU - Llopis, Roger

AU - Ortmann, Frank

AU - Casanova, Fèlix

AU - Hueso, Luis E.

PY - 2019

Y1 - 2019

N2 - The realization of both p-type and n-type operations in a single organic field effect transistor (OFET) is critical for simplifying the design of complex organic circuits. Typically, only p-type or n-type operation is realized in an OFET, while the respective counterpart is either suppressed by charge trapping or limited by the injection barrier with the electrodes. Here we show that only the presence of a top dielectric turns an n-type polymer semiconductor (N2200, Polyera ActiveInk™) into an ambipolar one, as detected from both bottom and top gated OFET operation. The effect is independent of the channel thickness and the top dielectric combinations. Variable temperature transfer characteristics show that both the electrons and holes can be equally transported through the bulk of the polymer semiconductor.

AB - The realization of both p-type and n-type operations in a single organic field effect transistor (OFET) is critical for simplifying the design of complex organic circuits. Typically, only p-type or n-type operation is realized in an OFET, while the respective counterpart is either suppressed by charge trapping or limited by the injection barrier with the electrodes. Here we show that only the presence of a top dielectric turns an n-type polymer semiconductor (N2200, Polyera ActiveInk™) into an ambipolar one, as detected from both bottom and top gated OFET operation. The effect is independent of the channel thickness and the top dielectric combinations. Variable temperature transfer characteristics show that both the electrons and holes can be equally transported through the bulk of the polymer semiconductor.

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DO - 10.1039/c9tc02912e

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ER -

Top dielectric induced ambipolarity in an n-channel dual-gated organic field effect transistor

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