Revealing the Impact of Electrolyte Composition for Co-Based Water Oxidation Catalysts by the Study of Reaction Kinetics Parameters

Yan Duan; Nicolas Dubouis; Jiaqiang Huang; Daniel Alves Dalla Corte; Vanessa Pimenta; Zhichuan J. Xu; Alexis Grimaud

doi:10.1021/acscatal.0c00490

Revealing the Impact of Electrolyte Composition for Co-Based Water Oxidation Catalysts by the Study of Reaction Kinetics Parameters

Yan Duan, Nicolas Dubouis, Jiaqiang Huang, Daniel Alves Dalla Corte, Vanessa Pimenta, Zhichuan J. Xu, Alexis Grimaud^*

^*Corresponding author for this work

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

62 Citations (Scopus)

Abstract

Recent studies have revealed the critical role played by the electrolyte composition on the oxygen evolution reaction (OER) kinetics on the surface of highly active catalysts. While numerous works were devoted to understand the effect of the electrolyte composition on the physical properties of the catalysts' surface, very little is known yet about its exact impact on the OER kinetics parameters. In this work, we reveal that the origin for the electrolyte-dependent OER activity for Co-based catalysts originates from two different effects. Increasing the alkaline electrolyte concentration for La_1-xSr_xCoO_3-δ perovskites with x > 0 and for amorphous CoOOH increases the pre-exponential factor, which can be explained either by an increase of the concentration of active sites or by a change in the entropy of activation. However, changing the alkali cation results in a decrease of the apparent activation enthalpy for Fe-containing amorphous films, traducing a change in intermediates' binding energies.

Original language	English
Pages (from-to)	4160-4170
Number of pages	11
Journal	ACS Catalysis
Volume	10
Issue number	7
DOIs	https://doi.org/10.1021/acscatal.0c00490
Publication status	Published - Apr 3 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 American Chemical Society.

ASJC Scopus Subject Areas

Catalysis
General Chemistry

Keywords

activation energy
alkali-cation species
alkaline electrolyte
Co-based electrocatalyst
kinetic parameter
pre-exponential factor

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10.1021/acscatal.0c00490

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title = "Revealing the Impact of Electrolyte Composition for Co-Based Water Oxidation Catalysts by the Study of Reaction Kinetics Parameters",

abstract = "Recent studies have revealed the critical role played by the electrolyte composition on the oxygen evolution reaction (OER) kinetics on the surface of highly active catalysts. While numerous works were devoted to understand the effect of the electrolyte composition on the physical properties of the catalysts' surface, very little is known yet about its exact impact on the OER kinetics parameters. In this work, we reveal that the origin for the electrolyte-dependent OER activity for Co-based catalysts originates from two different effects. Increasing the alkaline electrolyte concentration for La1-xSrxCoO3-δ perovskites with x > 0 and for amorphous CoOOH increases the pre-exponential factor, which can be explained either by an increase of the concentration of active sites or by a change in the entropy of activation. However, changing the alkali cation results in a decrease of the apparent activation enthalpy for Fe-containing amorphous films, traducing a change in intermediates' binding energies.",

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author = "Yan Duan and Nicolas Dubouis and Jiaqiang Huang and {Dalla Corte}, {Daniel Alves} and Vanessa Pimenta and Xu, {Zhichuan J.} and Alexis Grimaud",

note = "Publisher Copyright: {\textcopyright} 2020 American Chemical Society.",

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doi = "10.1021/acscatal.0c00490",

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AU - Duan, Yan

AU - Dubouis, Nicolas

AU - Huang, Jiaqiang

AU - Dalla Corte, Daniel Alves

AU - Pimenta, Vanessa

AU - Xu, Zhichuan J.

AU - Grimaud, Alexis

PY - 2020/4/3

Y1 - 2020/4/3

N2 - Recent studies have revealed the critical role played by the electrolyte composition on the oxygen evolution reaction (OER) kinetics on the surface of highly active catalysts. While numerous works were devoted to understand the effect of the electrolyte composition on the physical properties of the catalysts' surface, very little is known yet about its exact impact on the OER kinetics parameters. In this work, we reveal that the origin for the electrolyte-dependent OER activity for Co-based catalysts originates from two different effects. Increasing the alkaline electrolyte concentration for La1-xSrxCoO3-δ perovskites with x > 0 and for amorphous CoOOH increases the pre-exponential factor, which can be explained either by an increase of the concentration of active sites or by a change in the entropy of activation. However, changing the alkali cation results in a decrease of the apparent activation enthalpy for Fe-containing amorphous films, traducing a change in intermediates' binding energies.

AB - Recent studies have revealed the critical role played by the electrolyte composition on the oxygen evolution reaction (OER) kinetics on the surface of highly active catalysts. While numerous works were devoted to understand the effect of the electrolyte composition on the physical properties of the catalysts' surface, very little is known yet about its exact impact on the OER kinetics parameters. In this work, we reveal that the origin for the electrolyte-dependent OER activity for Co-based catalysts originates from two different effects. Increasing the alkaline electrolyte concentration for La1-xSrxCoO3-δ perovskites with x > 0 and for amorphous CoOOH increases the pre-exponential factor, which can be explained either by an increase of the concentration of active sites or by a change in the entropy of activation. However, changing the alkali cation results in a decrease of the apparent activation enthalpy for Fe-containing amorphous films, traducing a change in intermediates' binding energies.

KW - activation energy

KW - alkali-cation species

KW - alkaline electrolyte

KW - Co-based electrocatalyst

KW - kinetic parameter

KW - pre-exponential factor

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Revealing the Impact of Electrolyte Composition for Co-Based Water Oxidation Catalysts by the Study of Reaction Kinetics Parameters

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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