Nanoscale organic electronic devices formed by lamination with stamps

Jana Zaumseil; Takao Someya; Zhenan Bao; Yueh Lin Loo; Kirk Baldwin; Raymond Cirelli; John A. Rogers

doi:10.1557/proc-761-f5.4

Nanoscale organic electronic devices formed by lamination with stamps

Jana Zaumseil^*, Takao Someya, Zhenan Bao, Yueh Lin Loo, Kirk Baldwin, Raymond Cirelli, John A. Rogers

^*Corresponding author for this work

Materials Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Lamination of metal-coated elastomeric stamps against thin films of electroactive organics provides non-invasive, high resolution electrical contacts for investigations of charge transport in these materials. This approach uses the features of relief on the stamps to define, with nanometer resolution, the geometry and separation of electrodes that are formed by uniform evaporation of a thin metal film onto the stamp. Soft, room temperature contact of an element of this type with an organic semiconductor film on a gate dielectric and a gate yields a high performance top contact transistor with source/drain electrodes supported by the stamp. We review here our use of this approach to study the electrical properties of the organic semiconductor pentacene in thin film transistors structures. We also introduce a method for using the same techniques and structures to probe transport through organic monolayers.

Original language	English (US)
Title of host publication	Molecular Electronics
Publisher	Materials Research Society
Pages	53-58
Number of pages	6
ISBN (Print)	1558996982, 9781558996984
DOIs	https://doi.org/10.1557/proc-761-f5.4
State	Published - 2002
Event	2002 MRS Fall Meeting - Boston, MA, United States Duration: Dec 2 2002 → Dec 6 2002

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	761
ISSN (Print)	0272-9172

Other

Other	2002 MRS Fall Meeting
Country/Territory	United States
City	Boston, MA
Period	12/2/02 → 12/6/02

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1557/proc-761-f5.4

Cite this

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title = "Nanoscale organic electronic devices formed by lamination with stamps",

abstract = "Lamination of metal-coated elastomeric stamps against thin films of electroactive organics provides non-invasive, high resolution electrical contacts for investigations of charge transport in these materials. This approach uses the features of relief on the stamps to define, with nanometer resolution, the geometry and separation of electrodes that are formed by uniform evaporation of a thin metal film onto the stamp. Soft, room temperature contact of an element of this type with an organic semiconductor film on a gate dielectric and a gate yields a high performance top contact transistor with source/drain electrodes supported by the stamp. We review here our use of this approach to study the electrical properties of the organic semiconductor pentacene in thin film transistors structures. We also introduce a method for using the same techniques and structures to probe transport through organic monolayers.",

author = "Jana Zaumseil and Takao Someya and Zhenan Bao and Loo, {Yueh Lin} and Kirk Baldwin and Raymond Cirelli and Rogers, {John A.}",

year = "2002",

doi = "10.1557/proc-761-f5.4",

language = "English (US)",

isbn = "1558996982",

series = "Materials Research Society Symposium Proceedings",

publisher = "Materials Research Society",

pages = "53--58",

booktitle = "Molecular Electronics",

note = "2002 MRS Fall Meeting ; Conference date: 02-12-2002 Through 06-12-2002",

}

Zaumseil, J, Someya, T, Bao, Z, Loo, YL, Baldwin, K, Cirelli, R & Rogers, JA 2002, Nanoscale organic electronic devices formed by lamination with stamps. in Molecular Electronics. Materials Research Society Symposium Proceedings, vol. 761, Materials Research Society, pp. 53-58, 2002 MRS Fall Meeting, Boston, MA, United States, 12/2/02. https://doi.org/10.1557/proc-761-f5.4

TY - GEN

T1 - Nanoscale organic electronic devices formed by lamination with stamps

AU - Zaumseil, Jana

AU - Someya, Takao

AU - Bao, Zhenan

AU - Loo, Yueh Lin

AU - Baldwin, Kirk

AU - Cirelli, Raymond

AU - Rogers, John A.

PY - 2002

Y1 - 2002

N2 - Lamination of metal-coated elastomeric stamps against thin films of electroactive organics provides non-invasive, high resolution electrical contacts for investigations of charge transport in these materials. This approach uses the features of relief on the stamps to define, with nanometer resolution, the geometry and separation of electrodes that are formed by uniform evaporation of a thin metal film onto the stamp. Soft, room temperature contact of an element of this type with an organic semiconductor film on a gate dielectric and a gate yields a high performance top contact transistor with source/drain electrodes supported by the stamp. We review here our use of this approach to study the electrical properties of the organic semiconductor pentacene in thin film transistors structures. We also introduce a method for using the same techniques and structures to probe transport through organic monolayers.

AB - Lamination of metal-coated elastomeric stamps against thin films of electroactive organics provides non-invasive, high resolution electrical contacts for investigations of charge transport in these materials. This approach uses the features of relief on the stamps to define, with nanometer resolution, the geometry and separation of electrodes that are formed by uniform evaporation of a thin metal film onto the stamp. Soft, room temperature contact of an element of this type with an organic semiconductor film on a gate dielectric and a gate yields a high performance top contact transistor with source/drain electrodes supported by the stamp. We review here our use of this approach to study the electrical properties of the organic semiconductor pentacene in thin film transistors structures. We also introduce a method for using the same techniques and structures to probe transport through organic monolayers.

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U2 - 10.1557/proc-761-f5.4

DO - 10.1557/proc-761-f5.4

M3 - Conference contribution

AN - SCOPUS:34249894741

SN - 1558996982

SN - 9781558996984

T3 - Materials Research Society Symposium Proceedings

SP - 53

EP - 58

BT - Molecular Electronics

PB - Materials Research Society

T2 - 2002 MRS Fall Meeting

Y2 - 2 December 2002 through 6 December 2002

ER -

Nanoscale organic electronic devices formed by lamination with stamps

Abstract

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