Operando Identification of the Reversible Skin Layer on Co3O4 as a Three-Dimensional Reaction Zone for Oxygen Evolution

Operando Identification of the Reversible Skin Layer on Co3O4 as a Three-Dimensional Reaction Zone for Oxygen Evolution

Co oxides and oxyhydroxides have been studied extensively in the past as promising electrocatalysts for the oxygen evolution reaction (OER) in neutral to alkaline media. Earlier studies showed the formation of an ultrathin CoOx(OH)(y) skin layer on Co3O4 at potentials above 1.15 V vs reversible hydr...

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Veröffentlicht in:ACS catalysis 2022-03, Vol.12 (6), p.3256-3268
Hauptverfasser: Wiegmann, Tim, Pacheco, Ivan, Reikowski, Finn, Stettner, Jochim, Qiu, Canrong, Bouvier, Mathilde, Bertram, Manon, Faisal, Firas, Brummel, Olaf, Libuda, Jörg, Drnec, Jakub, Allongue, Philippe, Maroun, Fouad, Magnussen, Olaf M
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container_issue 6
container_start_page 3256
container_title ACS catalysis
container_volume 12
creator Wiegmann, Tim
Pacheco, Ivan
Reikowski, Finn
Stettner, Jochim
Qiu, Canrong
Bouvier, Mathilde
Bertram, Manon
Faisal, Firas
Brummel, Olaf
Libuda, Jörg
Drnec, Jakub
Allongue, Philippe
Maroun, Fouad
Magnussen, Olaf M
description Co oxides and oxyhydroxides have been studied extensively in the past as promising electrocatalysts for the oxygen evolution reaction (OER) in neutral to alkaline media. Earlier studies showed the formation of an ultrathin CoOx(OH)(y) skin layer on Co3O4 at potentials above 1.15 V vs reversible hydrogen electrode (RHE), but the precise influence of this skin layer on the OER reactivity is still under debate. We present here a systematic study of epitaxial spinel-type Co3O4 films with defined (111) orientation, prepared on different substrates by electrodeposition or physical vapor deposition. The OER overpotential of these samples may vary up to 120 mV, corresponding to two orders of magnitude differences in current density, which cannot be accounted for by differences in the electrochemically active surface area. We demonstrate by a careful analysis of operando surface X-ray diffraction measurements that these differences are clearly correlated with the average thickness of the skin layer. The OER reactivity increases with the amount of formed skin layer, indicating that the entire three-dimensional skin layer is an OER-active interphase. Furthermore, a scaling relationship between the reaction centers in the skin layer and the OER activity is established. It suggests that two lattice sites are involved in the OER mechanism.
doi_str_mv 10.1021/acscatal.1c05169
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title Operando Identification of the Reversible Skin Layer on Co3O4 as a Three-Dimensional Reaction Zone for Oxygen Evolution
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