Highly stretchable carbon nanotube transistors with ion gel gate dielectrics

Feng Xu; Meng Yin Wu; Nathaniel S. Safron; Susmit Singha Roy; Robert M. Jacobberger; Dominick J. Bindl; Jung Hun Seo; Tzu Hsuan Chang; Zhenqiang Ma; Michael S. Arnold

doi:10.1021/nl403941a

Highly stretchable carbon nanotube transistors with ion gel gate dielectrics

Feng Xu
, Meng Yin Wu
, Nathaniel S. Safron
, Susmit Singha Roy
, Robert M. Jacobberger
, Dominick J. Bindl
, Jung Hun Seo
, Tzu Hsuan Chang
, Zhenqiang Ma
, Michael S. Arnold

Department of Materials Design and Innovation

University of Wisconsin-Madison

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

159 Scopus citations

Abstract

Field-effect transistors (FETs) that are stretchable up to 50% without appreciable degradation in performance are demonstrated. The FETs are based on buckled thin films of polyfluorene-wrapped semiconducting single-walled carbon nanotubes (CNTs) as the channel, a flexible ion gel as the dielectric, and buckled metal films as electrodes. The buckling of the CNT film enables the high degree of stretchability while the flexible nature of the ion gel allows it to maintain a high quality interface with the CNTs during stretching. An excellent on/off ratio of >10⁴, a field-effect mobility of 10 cm ²·V^-1·s^-1, and a low operating voltage of <2 V are achieved over repeated mechanical cycling, with further strain accommodation possible. Deformable FETs are expected to facilitate new technologies like stretchable displays, conformal devices, and electronic skins.

Original language	English
Pages (from-to)	682-686
Number of pages	5
Journal	Nano Letters
Volume	14
Issue number	2
DOIs	https://doi.org/10.1021/nl403941a
State	Published - Feb 12 2014

Keywords

Carbon nanotube
ion gel gate dielectric
stretchable electronics
transistor

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10.1021/nl403941a

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title = "Highly stretchable carbon nanotube transistors with ion gel gate dielectrics",

abstract = "Field-effect transistors (FETs) that are stretchable up to 50\% without appreciable degradation in performance are demonstrated. The FETs are based on buckled thin films of polyfluorene-wrapped semiconducting single-walled carbon nanotubes (CNTs) as the channel, a flexible ion gel as the dielectric, and buckled metal films as electrodes. The buckling of the CNT film enables the high degree of stretchability while the flexible nature of the ion gel allows it to maintain a high quality interface with the CNTs during stretching. An excellent on/off ratio of >104, a field-effect mobility of 10 cm 2·V-1·s-1, and a low operating voltage of <2 V are achieved over repeated mechanical cycling, with further strain accommodation possible. Deformable FETs are expected to facilitate new technologies like stretchable displays, conformal devices, and electronic skins.",

keywords = "Carbon nanotube, ion gel gate dielectric, stretchable electronics, transistor",

author = "Feng Xu and Wu, \{Meng Yin\} and Safron, \{Nathaniel S.\} and Roy, \{Susmit Singha\} and Jacobberger, \{Robert M.\} and Bindl, \{Dominick J.\} and Seo, \{Jung Hun\} and Chang, \{Tzu Hsuan\} and Zhenqiang Ma and Arnold, \{Michael S.\}",

year = "2014",

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doi = "10.1021/nl403941a",

language = "English",

volume = "14",

pages = "682--686",

journal = "Nano Letters",

issn = "1530-6984",

publisher = "American Chemical Society",

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TY - JOUR

T1 - Highly stretchable carbon nanotube transistors with ion gel gate dielectrics

AU - Xu, Feng

AU - Wu, Meng Yin

AU - Safron, Nathaniel S.

AU - Roy, Susmit Singha

AU - Jacobberger, Robert M.

AU - Bindl, Dominick J.

AU - Seo, Jung Hun

AU - Chang, Tzu Hsuan

AU - Ma, Zhenqiang

AU - Arnold, Michael S.

PY - 2014/2/12

Y1 - 2014/2/12

N2 - Field-effect transistors (FETs) that are stretchable up to 50% without appreciable degradation in performance are demonstrated. The FETs are based on buckled thin films of polyfluorene-wrapped semiconducting single-walled carbon nanotubes (CNTs) as the channel, a flexible ion gel as the dielectric, and buckled metal films as electrodes. The buckling of the CNT film enables the high degree of stretchability while the flexible nature of the ion gel allows it to maintain a high quality interface with the CNTs during stretching. An excellent on/off ratio of >104, a field-effect mobility of 10 cm 2·V-1·s-1, and a low operating voltage of <2 V are achieved over repeated mechanical cycling, with further strain accommodation possible. Deformable FETs are expected to facilitate new technologies like stretchable displays, conformal devices, and electronic skins.

AB - Field-effect transistors (FETs) that are stretchable up to 50% without appreciable degradation in performance are demonstrated. The FETs are based on buckled thin films of polyfluorene-wrapped semiconducting single-walled carbon nanotubes (CNTs) as the channel, a flexible ion gel as the dielectric, and buckled metal films as electrodes. The buckling of the CNT film enables the high degree of stretchability while the flexible nature of the ion gel allows it to maintain a high quality interface with the CNTs during stretching. An excellent on/off ratio of >104, a field-effect mobility of 10 cm 2·V-1·s-1, and a low operating voltage of <2 V are achieved over repeated mechanical cycling, with further strain accommodation possible. Deformable FETs are expected to facilitate new technologies like stretchable displays, conformal devices, and electronic skins.

KW - Carbon nanotube

KW - ion gel gate dielectric

KW - stretchable electronics

KW - transistor

UR - https://www.scopus.com/pages/publications/84894113683

U2 - 10.1021/nl403941a

DO - 10.1021/nl403941a

M3 - Article

AN - SCOPUS:84894113683

SN - 1530-6984

VL - 14

SP - 682

EP - 686

JO - Nano Letters

JF - Nano Letters

IS - 2

ER -

Highly stretchable carbon nanotube transistors with ion gel gate dielectrics

Abstract

Keywords

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