An electroactive conducting polymer actuator based on NBR/RTIL solid polymer electrolyte

M. S. Cho; H. J. Seo; J. D. Nam; H. R. Choi; J. C. Koo; Y. Lee

doi:10.1088/0964-1726/16/2/S06

An electroactive conducting polymer actuator based on NBR/RTIL solid polymer electrolyte

M. S. Cho
, H. J. Seo
, J. D. Nam
, H. R. Choi
, J. C. Koo
, Y. Lee

Sungkyunkwan University

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

22 Scopus citations

Abstract

This paper reports the fabrication of a dry-type conducting polymer actuator using nitrile rubber (NBR) as the base material in a solid polymer electrolyte. The conducting polymer, poly(3,4-ethylenedioxythiophene) (PEDOT), was synthesized on the surface of the NBR layer by using a chemical oxidation polymerization technique. Room-temperature ionic liquids (RTIL) based on imidazolium salts, e.g.1-butyl-3-methyl imidazolium X (where X ≤ BF ₄^-, PF₆^-, (CF₃SO ₂)₂N^-), were absorbed into the composite film. The compatibility between the ionic liquids and the NBR polymer was confirmed by DMA. The effect of the anion size of the ionic liquids on the displacement of the actuator was examined. The displacement increased with increasing anion size of the ionic liquids. The cyclic voltammetry responses and the redox switching dynamics of the actuators were examined in different ionic liquids.

Original language	English
Article number	S06
Pages (from-to)	S237-S242
Journal	Smart Materials and Structures
Volume	16
Issue number	2
DOIs	https://doi.org/10.1088/0964-1726/16/2/S06
State	Published - 1 Apr 2007

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Cite this

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title = "An electroactive conducting polymer actuator based on NBR/RTIL solid polymer electrolyte",

abstract = "This paper reports the fabrication of a dry-type conducting polymer actuator using nitrile rubber (NBR) as the base material in a solid polymer electrolyte. The conducting polymer, poly(3,4-ethylenedioxythiophene) (PEDOT), was synthesized on the surface of the NBR layer by using a chemical oxidation polymerization technique. Room-temperature ionic liquids (RTIL) based on imidazolium salts, e.g.1-butyl-3-methyl imidazolium X (where X ≤ BF 4-, PF6-, (CF3SO 2)2N-), were absorbed into the composite film. The compatibility between the ionic liquids and the NBR polymer was confirmed by DMA. The effect of the anion size of the ionic liquids on the displacement of the actuator was examined. The displacement increased with increasing anion size of the ionic liquids. The cyclic voltammetry responses and the redox switching dynamics of the actuators were examined in different ionic liquids.",

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AU - Cho, M. S.

AU - Seo, H. J.

AU - Nam, J. D.

AU - Choi, H. R.

AU - Koo, J. C.

AU - Lee, Y.

PY - 2007/4/1

Y1 - 2007/4/1

N2 - This paper reports the fabrication of a dry-type conducting polymer actuator using nitrile rubber (NBR) as the base material in a solid polymer electrolyte. The conducting polymer, poly(3,4-ethylenedioxythiophene) (PEDOT), was synthesized on the surface of the NBR layer by using a chemical oxidation polymerization technique. Room-temperature ionic liquids (RTIL) based on imidazolium salts, e.g.1-butyl-3-methyl imidazolium X (where X ≤ BF 4-, PF6-, (CF3SO 2)2N-), were absorbed into the composite film. The compatibility between the ionic liquids and the NBR polymer was confirmed by DMA. The effect of the anion size of the ionic liquids on the displacement of the actuator was examined. The displacement increased with increasing anion size of the ionic liquids. The cyclic voltammetry responses and the redox switching dynamics of the actuators were examined in different ionic liquids.

AB - This paper reports the fabrication of a dry-type conducting polymer actuator using nitrile rubber (NBR) as the base material in a solid polymer electrolyte. The conducting polymer, poly(3,4-ethylenedioxythiophene) (PEDOT), was synthesized on the surface of the NBR layer by using a chemical oxidation polymerization technique. Room-temperature ionic liquids (RTIL) based on imidazolium salts, e.g.1-butyl-3-methyl imidazolium X (where X ≤ BF 4-, PF6-, (CF3SO 2)2N-), were absorbed into the composite film. The compatibility between the ionic liquids and the NBR polymer was confirmed by DMA. The effect of the anion size of the ionic liquids on the displacement of the actuator was examined. The displacement increased with increasing anion size of the ionic liquids. The cyclic voltammetry responses and the redox switching dynamics of the actuators were examined in different ionic liquids.

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An electroactive conducting polymer actuator based on NBR/RTIL solid polymer electrolyte

Abstract

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