Fast Outer-Sphere Electron Transfer and High Specific Capacitance at Covalently Modified Carbon Electrodes

Amy S. Metlay; Brandon Chyi; Colton J. Sheehan; Jeffrey R. Shallenberger; Thomas E. Mallouk

doi:10.1021/jacs.4c04088

Fast Outer-Sphere Electron Transfer and High Specific Capacitance at Covalently Modified Carbon Electrodes

Amy S. Metlay
, Brandon Chyi
, Colton J. Sheehan
, Jeffrey R. Shallenberger
, Thomas E. Mallouk

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

4 Scopus citations

Abstract

Carbon electrodes typically display sluggish electron transfer kinetics due to the adsorption of adventitious molecules that effectively insulate the surface. Here, we describe a method for rendering graphitic carbon electrodes permanently hydrophilic by functionalization with 4-(diazonium)benzenesulfonic acid. In aqueous electrolytes, these hydrophilic carbon electrodes exhibit metal-like specific capacitance (∼40 μF/cm²) as measured by cyclic voltammetry, suggesting a change in the double-layer structure at the carbon surface. Additionally, the modified electrodes show fast charge transfer kinetics to outer-sphere one-electron redox couples such as ferro-/ferricyanide as well as improved electron transfer kinetics in alkaline aqueous redox flow batteries.

Original language	English (US)
Pages (from-to)	20086-20091
Number of pages	6
Journal	Journal of the American Chemical Society
Volume	146
Issue number	29
DOIs	https://doi.org/10.1021/jacs.4c04088
State	Published - Jul 24 2024

All Science Journal Classification (ASJC) codes

Catalysis
Biochemistry
General Chemistry
Colloid and Surface Chemistry

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10.1021/jacs.4c04088

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title = "Fast Outer-Sphere Electron Transfer and High Specific Capacitance at Covalently Modified Carbon Electrodes",

abstract = "Carbon electrodes typically display sluggish electron transfer kinetics due to the adsorption of adventitious molecules that effectively insulate the surface. Here, we describe a method for rendering graphitic carbon electrodes permanently hydrophilic by functionalization with 4-(diazonium)benzenesulfonic acid. In aqueous electrolytes, these hydrophilic carbon electrodes exhibit metal-like specific capacitance (∼40 μF/cm2) as measured by cyclic voltammetry, suggesting a change in the double-layer structure at the carbon surface. Additionally, the modified electrodes show fast charge transfer kinetics to outer-sphere one-electron redox couples such as ferro-/ferricyanide as well as improved electron transfer kinetics in alkaline aqueous redox flow batteries.",

author = "Metlay, \{Amy S.\} and Brandon Chyi and Sheehan, \{Colton J.\} and Shallenberger, \{Jeffrey R.\} and Mallouk, \{Thomas E.\}",

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doi = "10.1021/jacs.4c04088",

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T1 - Fast Outer-Sphere Electron Transfer and High Specific Capacitance at Covalently Modified Carbon Electrodes

AU - Metlay, Amy S.

AU - Chyi, Brandon

AU - Sheehan, Colton J.

AU - Shallenberger, Jeffrey R.

AU - Mallouk, Thomas E.

PY - 2024/7/24

Y1 - 2024/7/24

N2 - Carbon electrodes typically display sluggish electron transfer kinetics due to the adsorption of adventitious molecules that effectively insulate the surface. Here, we describe a method for rendering graphitic carbon electrodes permanently hydrophilic by functionalization with 4-(diazonium)benzenesulfonic acid. In aqueous electrolytes, these hydrophilic carbon electrodes exhibit metal-like specific capacitance (∼40 μF/cm2) as measured by cyclic voltammetry, suggesting a change in the double-layer structure at the carbon surface. Additionally, the modified electrodes show fast charge transfer kinetics to outer-sphere one-electron redox couples such as ferro-/ferricyanide as well as improved electron transfer kinetics in alkaline aqueous redox flow batteries.

AB - Carbon electrodes typically display sluggish electron transfer kinetics due to the adsorption of adventitious molecules that effectively insulate the surface. Here, we describe a method for rendering graphitic carbon electrodes permanently hydrophilic by functionalization with 4-(diazonium)benzenesulfonic acid. In aqueous electrolytes, these hydrophilic carbon electrodes exhibit metal-like specific capacitance (∼40 μF/cm2) as measured by cyclic voltammetry, suggesting a change in the double-layer structure at the carbon surface. Additionally, the modified electrodes show fast charge transfer kinetics to outer-sphere one-electron redox couples such as ferro-/ferricyanide as well as improved electron transfer kinetics in alkaline aqueous redox flow batteries.

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AN - SCOPUS:85198507734

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JF - Journal of the American Chemical Society

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ER -

Fast Outer-Sphere Electron Transfer and High Specific Capacitance at Covalently Modified Carbon Electrodes

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