Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance

Yue Hu; Yang Zhao; Yan Li; Xue Jun Xie; Hui Li; Li Ming Dai; Liang Ti Qu

Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance

Yue Hu, Yang Zhao, Yan Li, Xue Jun Xie, Hui Li, Li Ming Dai, Liang Ti Qu^*

^*此作品的通讯作者

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6 引用（Scopus）

摘要

Electrochemical cyclic voltammetric(CV) scan was applied to inducing the partial oxidation and defects of carbon nanotubes(CNTs). The electrochemically induced functional groups and physical defects were demonstrated to show positive effects on the nanotube capacitance, as exemplified by super-long CNT arrays as model for the easy fabrication of CNT electrodes. Specifically, the initial hydrophobic nanotube surface becomes hydrophilic and a ten-time enhancement in capacitance is observed with respect to the pristine CNT sample. Thus, the electrochemical CV pretreatment can be used as an effective approach to activate the CNT surface for an enhanced electrochemical performance in capacitors, and many other advanced devices beyond capacitors, such as electrochemical sensors and batteries.

源语言	英语
页（从-至）	302-307
页数	6
期刊	Chemical Research in Chinese Universities
卷	28
期	2
出版状态	已出版 - 2012
已对外发布	是

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Hu, Y., Zhao, Y., Li, Y., Xie, X. J., Li, H., Dai, L. M., & Qu, L. T. (2012). Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance. Chemical Research in Chinese Universities, 28(2), 302-307.

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title = "Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance",

abstract = "Electrochemical cyclic voltammetric(CV) scan was applied to inducing the partial oxidation and defects of carbon nanotubes(CNTs). The electrochemically induced functional groups and physical defects were demonstrated to show positive effects on the nanotube capacitance, as exemplified by super-long CNT arrays as model for the easy fabrication of CNT electrodes. Specifically, the initial hydrophobic nanotube surface becomes hydrophilic and a ten-time enhancement in capacitance is observed with respect to the pristine CNT sample. Thus, the electrochemical CV pretreatment can be used as an effective approach to activate the CNT surface for an enhanced electrochemical performance in capacitors, and many other advanced devices beyond capacitors, such as electrochemical sensors and batteries.",

keywords = "Defect, Electrochemical capacitor, Electrochemistry, Energy storage, Super-long carbon nanotube",

author = "Yue Hu and Yang Zhao and Yan Li and Xie, {Xue Jun} and Hui Li and Dai, {Li Ming} and Qu, {Liang Ti}",

year = "2012",

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T1 - Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance

AU - Hu, Yue

AU - Zhao, Yang

AU - Li, Yan

AU - Xie, Xue Jun

AU - Li, Hui

AU - Dai, Li Ming

AU - Qu, Liang Ti

PY - 2012

Y1 - 2012

N2 - Electrochemical cyclic voltammetric(CV) scan was applied to inducing the partial oxidation and defects of carbon nanotubes(CNTs). The electrochemically induced functional groups and physical defects were demonstrated to show positive effects on the nanotube capacitance, as exemplified by super-long CNT arrays as model for the easy fabrication of CNT electrodes. Specifically, the initial hydrophobic nanotube surface becomes hydrophilic and a ten-time enhancement in capacitance is observed with respect to the pristine CNT sample. Thus, the electrochemical CV pretreatment can be used as an effective approach to activate the CNT surface for an enhanced electrochemical performance in capacitors, and many other advanced devices beyond capacitors, such as electrochemical sensors and batteries.

AB - Electrochemical cyclic voltammetric(CV) scan was applied to inducing the partial oxidation and defects of carbon nanotubes(CNTs). The electrochemically induced functional groups and physical defects were demonstrated to show positive effects on the nanotube capacitance, as exemplified by super-long CNT arrays as model for the easy fabrication of CNT electrodes. Specifically, the initial hydrophobic nanotube surface becomes hydrophilic and a ten-time enhancement in capacitance is observed with respect to the pristine CNT sample. Thus, the electrochemical CV pretreatment can be used as an effective approach to activate the CNT surface for an enhanced electrochemical performance in capacitors, and many other advanced devices beyond capacitors, such as electrochemical sensors and batteries.

KW - Defect

KW - Electrochemical capacitor

KW - Electrochemistry

KW - Energy storage

KW - Super-long carbon nanotube

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M3 - Article

AN - SCOPUS:84864496033

SN - 1005-9040

VL - 28

SP - 302

EP - 307

JO - Chemical Research in Chinese Universities

JF - Chemical Research in Chinese Universities

IS - 2

ER -

Electrochemical introduction of active sites into super-long carbon nanotubes for enhanced capacitance

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