Ethanol-mediated metal transfer printing on organic films

Dmitry Aldakov; Denis Tondelier; Serge Palacin; Yvan Bonnassieux

doi:10.1021/am101085k

Ethanol-mediated metal transfer printing on organic films

Dmitry Aldakov, Denis Tondelier, Serge Palacin, Yvan Bonnassieux

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

Abstract

Ethanol-mediated metal transfer printing (mTP) is a soft method, which allows to efficiently deposit metals onto various organic surfaces for applications in organic electronics. This simple approach in based on the stronger adhesion of the metals to the organic materials in the presence of thin ethanol layer between the metallized PDMS and the substrate due to the capillary action. Patterns with a resolution of at least 20 μm have been obtained on organic polymeric materials and photoresists without heating or applied pressure. Compared to other methods ethanol mediated mTP is considerably faster and has smaller limitations on the stamp depth. Residual silicone layer detected on the metal surface after the transfer by XPS studies has been mostly removed by UV/ozone treatment. Organic field-effect transistors (OTFTs) based on the metal electrodes deposited by mTP have been successfully fabricated and tested.

Original language	English
Pages (from-to)	740-745
Number of pages	6
Journal	ACS Applied Materials and Interfaces
Volume	3
Issue number	3
DOIs	https://doi.org/10.1021/am101085k
Publication status	Published - 23 Mar 2011

Keywords

OTFT
PDMS
XPS
metal surface
metal transfer printing

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10.1021/am101085k

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title = "Ethanol-mediated metal transfer printing on organic films",

abstract = "Ethanol-mediated metal transfer printing (mTP) is a soft method, which allows to efficiently deposit metals onto various organic surfaces for applications in organic electronics. This simple approach in based on the stronger adhesion of the metals to the organic materials in the presence of thin ethanol layer between the metallized PDMS and the substrate due to the capillary action. Patterns with a resolution of at least 20 μm have been obtained on organic polymeric materials and photoresists without heating or applied pressure. Compared to other methods ethanol mediated mTP is considerably faster and has smaller limitations on the stamp depth. Residual silicone layer detected on the metal surface after the transfer by XPS studies has been mostly removed by UV/ozone treatment. Organic field-effect transistors (OTFTs) based on the metal electrodes deposited by mTP have been successfully fabricated and tested.",

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author = "Dmitry Aldakov and Denis Tondelier and Serge Palacin and Yvan Bonnassieux",

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AU - Aldakov, Dmitry

AU - Tondelier, Denis

AU - Palacin, Serge

AU - Bonnassieux, Yvan

PY - 2011/3/23

Y1 - 2011/3/23

N2 - Ethanol-mediated metal transfer printing (mTP) is a soft method, which allows to efficiently deposit metals onto various organic surfaces for applications in organic electronics. This simple approach in based on the stronger adhesion of the metals to the organic materials in the presence of thin ethanol layer between the metallized PDMS and the substrate due to the capillary action. Patterns with a resolution of at least 20 μm have been obtained on organic polymeric materials and photoresists without heating or applied pressure. Compared to other methods ethanol mediated mTP is considerably faster and has smaller limitations on the stamp depth. Residual silicone layer detected on the metal surface after the transfer by XPS studies has been mostly removed by UV/ozone treatment. Organic field-effect transistors (OTFTs) based on the metal electrodes deposited by mTP have been successfully fabricated and tested.

AB - Ethanol-mediated metal transfer printing (mTP) is a soft method, which allows to efficiently deposit metals onto various organic surfaces for applications in organic electronics. This simple approach in based on the stronger adhesion of the metals to the organic materials in the presence of thin ethanol layer between the metallized PDMS and the substrate due to the capillary action. Patterns with a resolution of at least 20 μm have been obtained on organic polymeric materials and photoresists without heating or applied pressure. Compared to other methods ethanol mediated mTP is considerably faster and has smaller limitations on the stamp depth. Residual silicone layer detected on the metal surface after the transfer by XPS studies has been mostly removed by UV/ozone treatment. Organic field-effect transistors (OTFTs) based on the metal electrodes deposited by mTP have been successfully fabricated and tested.

KW - OTFT

KW - PDMS

KW - XPS

KW - metal surface

KW - metal transfer printing

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

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Ethanol-mediated metal transfer printing on organic films

Abstract

Keywords

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