Wave printing (II): Polymer MISFETs using microcontact printing

J. Schellekens; D. Burdinski; M. Saalmink; M. Beenhakkers; G. Gelinck; M.M.J. Decre

Wave printing (II): Polymer MISFETs using microcontact printing

J. Schellekens, D. Burdinski, M. Saalmink, M. Beenhakkers, G. Gelinck, M.M.J. Decre

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

The multilayer printing capabilities and thin film transistors based on organic materials were investigated using the concept of wave printing. Both the gate layer and the insulator layer were structured using conventional photolithography and wet-etching. Polymer-MISFETS with channel length ranging from 20 to 1 micron were made using a combination of photolithography and microcontact wave printing. Their performance was comparable to devices made using standard lithography, demonstrating that microcontact wave printing offers a viable route to low-cost manufacturing of large area polymer electronics.

Original language	English
Title of host publication	Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A.
Place of Publication	Warrendale
Publisher	Materials Research Society
Pages	21-23
Number of pages	3
ISBN (Print)	9781558997462
Publication status	Published - 1 Dec 2004
Externally published	Yes
Event	2003 MRS Fall Meeting & Exhibit - Boston, United States Duration: 1 Dec 2003 → 5 Dec 2003 https://www.mrs.org/fall2003

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	EXS-2
ISSN (Print)	0272-9172

Conference

Conference	2003 MRS Fall Meeting & Exhibit
Country/Territory	United States
City	Boston
Period	1/12/03 → 5/12/03
Other	Symposium held at the 2003 MRS Fall Meeting - "Biomaterials for Tissue Engineering"
Internet address	https://www.mrs.org/fall2003

Cite this

Schellekens, J., Burdinski, D., Saalmink, M., Beenhakkers, M., Gelinck, G., & Decre, M. M. J. (2004). Wave printing (II): Polymer MISFETs using microcontact printing. In Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A. (pp. 21-23). Article M2.9 (Materials Research Society Symposium Proceedings; Vol. EXS-2). Materials Research Society.

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title = "Wave printing (II): Polymer MISFETs using microcontact printing",

abstract = "The multilayer printing capabilities and thin film transistors based on organic materials were investigated using the concept of wave printing. Both the gate layer and the insulator layer were structured using conventional photolithography and wet-etching. Polymer-MISFETS with channel length ranging from 20 to 1 micron were made using a combination of photolithography and microcontact wave printing. Their performance was comparable to devices made using standard lithography, demonstrating that microcontact wave printing offers a viable route to low-cost manufacturing of large area polymer electronics.",

author = "J. Schellekens and D. Burdinski and M. Saalmink and M. Beenhakkers and G. Gelinck and M.M.J. Decre",

year = "2004",

month = dec,

day = "1",

language = "English",

isbn = "9781558997462",

series = "Materials Research Society Symposium Proceedings",

publisher = "Materials Research Society",

pages = "21--23",

booktitle = "Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A.",

address = "United States",

note = "2003 MRS Fall Meeting & Exhibit ; Conference date: 01-12-2003 Through 05-12-2003",

url = "https://www.mrs.org/fall2003",

}

Schellekens, J, Burdinski, D, Saalmink, M, Beenhakkers, M, Gelinck, G & Decre, MMJ 2004, Wave printing (II): Polymer MISFETs using microcontact printing. in Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A.., M2.9, Materials Research Society Symposium Proceedings, vol. EXS-2, Materials Research Society, Warrendale, pp. 21-23, 2003 MRS Fall Meeting & Exhibit, Boston, Massachusetts, United States, 1/12/03.

Wave printing (II): Polymer MISFETs using microcontact printing. / Schellekens, J.; Burdinski, D.; Saalmink, M. et al.
Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A.. Warrendale: Materials Research Society, 2004. p. 21-23 M2.9 (Materials Research Society Symposium Proceedings; Vol. EXS-2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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AU - Saalmink, M.

AU - Beenhakkers, M.

AU - Gelinck, G.

AU - Decre, M.M.J.

PY - 2004/12/1

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N2 - The multilayer printing capabilities and thin film transistors based on organic materials were investigated using the concept of wave printing. Both the gate layer and the insulator layer were structured using conventional photolithography and wet-etching. Polymer-MISFETS with channel length ranging from 20 to 1 micron were made using a combination of photolithography and microcontact wave printing. Their performance was comparable to devices made using standard lithography, demonstrating that microcontact wave printing offers a viable route to low-cost manufacturing of large area polymer electronics.

AB - The multilayer printing capabilities and thin film transistors based on organic materials were investigated using the concept of wave printing. Both the gate layer and the insulator layer were structured using conventional photolithography and wet-etching. Polymer-MISFETS with channel length ranging from 20 to 1 micron were made using a combination of photolithography and microcontact wave printing. Their performance was comparable to devices made using standard lithography, demonstrating that microcontact wave printing offers a viable route to low-cost manufacturing of large area polymer electronics.

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BT - Nontraditional approaches to patterning : symposium held December 1-5, 2003, Boston, Massachusetts, U.S.A.

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CY - Warrendale

Y2 - 1 December 2003 through 5 December 2003

ER -

Wave printing (II): Polymer MISFETs using microcontact printing

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