Catechol-modified carbon cloth as hybrid electrode for energy storage devices

David Malka; Sapir Giladi; Ortal Hanna; Michal Weitman; Reut Cohen; Yuval Elias; Ran Attias; Thierry Brousse; Aryeh A. Frimer; Doron Aurbach

doi:10.1149/2.0911906jes

Catechol-modified carbon cloth as hybrid electrode for energy storage devices

David Malka
, Sapir Giladi
, Ortal Hanna
, Michal Weitman
, Reut Cohen
, Yuval Elias
, Ran Attias
, Thierry Brousse
, Aryeh A. Frimer
, Doron Aurbach

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

5 Scopus citations

Abstract

Diazonium chemistry was used to enrich Kynol carbon cloth with catechol (dihydroxybenzene) moieties as redox agents. Comprehensive surface analyses (combining BET, SEM, TGA, and TGA-GC/MS) were carried out to evaluate the effect of redox molecules grafted over the carbon cloth surface. Electrochemical deprotection of 3,4-dimethoxyaniline grafted to the electrochemically active catechol, followed by electrochemical assessment in a three-electrode cell, shows a faradaic contribution due to redox reactions from the catechol-grafted moieties. Galvanostatic measurements underline the remarkably stable performance of this redox reaction, which permits over 3,000 cycles.

Original language	English
Pages (from-to)	A11147-A1153
Journal	Journal of the Electrochemical Society
Volume	166
Issue number	6
DOIs	https://doi.org/10.1149/2.0911906jes
State	Published - 2019

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Publisher Copyright:
© 2019 The Electrochemical Society.

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10.1149/2.0911906jes

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abstract = "Diazonium chemistry was used to enrich Kynol carbon cloth with catechol (dihydroxybenzene) moieties as redox agents. Comprehensive surface analyses (combining BET, SEM, TGA, and TGA-GC/MS) were carried out to evaluate the effect of redox molecules grafted over the carbon cloth surface. Electrochemical deprotection of 3,4-dimethoxyaniline grafted to the electrochemically active catechol, followed by electrochemical assessment in a three-electrode cell, shows a faradaic contribution due to redox reactions from the catechol-grafted moieties. Galvanostatic measurements underline the remarkably stable performance of this redox reaction, which permits over 3,000 cycles.",

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AU - Malka, David

AU - Giladi, Sapir

AU - Hanna, Ortal

AU - Weitman, Michal

AU - Cohen, Reut

AU - Elias, Yuval

AU - Attias, Ran

AU - Brousse, Thierry

AU - Frimer, Aryeh A.

AU - Aurbach, Doron

PY - 2019

Y1 - 2019

N2 - Diazonium chemistry was used to enrich Kynol carbon cloth with catechol (dihydroxybenzene) moieties as redox agents. Comprehensive surface analyses (combining BET, SEM, TGA, and TGA-GC/MS) were carried out to evaluate the effect of redox molecules grafted over the carbon cloth surface. Electrochemical deprotection of 3,4-dimethoxyaniline grafted to the electrochemically active catechol, followed by electrochemical assessment in a three-electrode cell, shows a faradaic contribution due to redox reactions from the catechol-grafted moieties. Galvanostatic measurements underline the remarkably stable performance of this redox reaction, which permits over 3,000 cycles.

AB - Diazonium chemistry was used to enrich Kynol carbon cloth with catechol (dihydroxybenzene) moieties as redox agents. Comprehensive surface analyses (combining BET, SEM, TGA, and TGA-GC/MS) were carried out to evaluate the effect of redox molecules grafted over the carbon cloth surface. Electrochemical deprotection of 3,4-dimethoxyaniline grafted to the electrochemically active catechol, followed by electrochemical assessment in a three-electrode cell, shows a faradaic contribution due to redox reactions from the catechol-grafted moieties. Galvanostatic measurements underline the remarkably stable performance of this redox reaction, which permits over 3,000 cycles.

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JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 6

ER -

Catechol-modified carbon cloth as hybrid electrode for energy storage devices

Abstract

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