Enhanced electromechanical performance of graphite oxide-nafion nanocomposite actuator

Yuanfeng Lian; Yuexian Liu; Tao Jiang; Jing Shu; Huiqin Lian; Minhua Cao

doi:10.1021/jp101337h

Enhanced electromechanical performance of graphite oxide-nafion nanocomposite actuator

Yuanfeng Lian, Yuexian Liu, Tao Jiang, Jing Shu, Huiqin Lian^*, Minhua Cao

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

91 引用（Scopus）

摘要

We report for the first time the fabrication of the graphene oxide (GO)-Nafion actuators with carbon nanotubes (CNTs) as electrodes. The exfoliated GO was homogeneously dispersed in the Nafion matrix with doping level of 0.5-10 wt %. CNT electrodes on both sides of the membrane were made by dip-coating method; that is, the composites membranes were first emerged into the CNT-Nafion dimethylformamide (DMF) solution and then pulled out to dry. The as-prepared GO-Nafion actuators were tested in terms of conductivity, bulk and surface morphology, tip displacement, and blocked force. The results demonstrated that the electrochemical behavior of the polymer nanocomposite was significantly improved because of the efficient distribution of the high aspect ratio GO sheets, and the blocking force of the nanocomposite actuator with doping level 10 wt % is 4 times that of the virgin nafion, and the displacement is nearly 2 times that of nafion.

源语言	英语
页（从-至）	9659-9663
页数	5
期刊	Journal of Physical Chemistry C
卷	114
期	21
DOI	https://doi.org/10.1021/jp101337h
出版状态	已出版 - 3 6月 2010

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Lian, Y., Liu, Y., Jiang, T., Shu, J., Lian, H., & Cao, M. (2010). Enhanced electromechanical performance of graphite oxide-nafion nanocomposite actuator. Journal of Physical Chemistry C, 114(21), 9659-9663. https://doi.org/10.1021/jp101337h

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abstract = "We report for the first time the fabrication of the graphene oxide (GO)-Nafion actuators with carbon nanotubes (CNTs) as electrodes. The exfoliated GO was homogeneously dispersed in the Nafion matrix with doping level of 0.5-10 wt %. CNT electrodes on both sides of the membrane were made by dip-coating method; that is, the composites membranes were first emerged into the CNT-Nafion dimethylformamide (DMF) solution and then pulled out to dry. The as-prepared GO-Nafion actuators were tested in terms of conductivity, bulk and surface morphology, tip displacement, and blocked force. The results demonstrated that the electrochemical behavior of the polymer nanocomposite was significantly improved because of the efficient distribution of the high aspect ratio GO sheets, and the blocking force of the nanocomposite actuator with doping level 10 wt % is 4 times that of the virgin nafion, and the displacement is nearly 2 times that of nafion.",

author = "Yuanfeng Lian and Yuexian Liu and Tao Jiang and Jing Shu and Huiqin Lian and Minhua Cao",

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T1 - Enhanced electromechanical performance of graphite oxide-nafion nanocomposite actuator

AU - Lian, Yuanfeng

AU - Liu, Yuexian

AU - Jiang, Tao

AU - Shu, Jing

AU - Lian, Huiqin

AU - Cao, Minhua

PY - 2010/6/3

Y1 - 2010/6/3

N2 - We report for the first time the fabrication of the graphene oxide (GO)-Nafion actuators with carbon nanotubes (CNTs) as electrodes. The exfoliated GO was homogeneously dispersed in the Nafion matrix with doping level of 0.5-10 wt %. CNT electrodes on both sides of the membrane were made by dip-coating method; that is, the composites membranes were first emerged into the CNT-Nafion dimethylformamide (DMF) solution and then pulled out to dry. The as-prepared GO-Nafion actuators were tested in terms of conductivity, bulk and surface morphology, tip displacement, and blocked force. The results demonstrated that the electrochemical behavior of the polymer nanocomposite was significantly improved because of the efficient distribution of the high aspect ratio GO sheets, and the blocking force of the nanocomposite actuator with doping level 10 wt % is 4 times that of the virgin nafion, and the displacement is nearly 2 times that of nafion.

AB - We report for the first time the fabrication of the graphene oxide (GO)-Nafion actuators with carbon nanotubes (CNTs) as electrodes. The exfoliated GO was homogeneously dispersed in the Nafion matrix with doping level of 0.5-10 wt %. CNT electrodes on both sides of the membrane were made by dip-coating method; that is, the composites membranes were first emerged into the CNT-Nafion dimethylformamide (DMF) solution and then pulled out to dry. The as-prepared GO-Nafion actuators were tested in terms of conductivity, bulk and surface morphology, tip displacement, and blocked force. The results demonstrated that the electrochemical behavior of the polymer nanocomposite was significantly improved because of the efficient distribution of the high aspect ratio GO sheets, and the blocking force of the nanocomposite actuator with doping level 10 wt % is 4 times that of the virgin nafion, and the displacement is nearly 2 times that of nafion.

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Enhanced electromechanical performance of graphite oxide-nafion nanocomposite actuator

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