Facet-Dependent Lattice Oxygen Activation on Oxygen-Defective Co3O4 for Electrocatalytic Oxygen Evolution Reaction

Introducing oxygen vacancies into Co-based oxides with different surface structures can significantly affect their coordination environments and electronic structures, possibly contributing to the variation of the electrocatalytic oxygen evolution reaction (OER) activity. Herein, the oxygen vacancie...

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Published inACS energy letters Vol. 9; no. 5; pp. 2182 - 2192
Main Authors Chen, Xiang, Xu, Xinyue, Shao, Cuiping, Ke, Zhongyuan, Cheng, Yuwen, Jin, Hongqiang, Da, Yumin, Liu, Dongming, Chen, Wei
Format Journal Article
LanguageEnglish
Published American Chemical Society 10.05.2024
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Abstract Introducing oxygen vacancies into Co-based oxides with different surface structures can significantly affect their coordination environments and electronic structures, possibly contributing to the variation of the electrocatalytic oxygen evolution reaction (OER) activity. Herein, the oxygen vacancies were introduced into Co3O4 cubes and truncated octahedrons to uncover the effects of facets (001) and (111) on the intrinsic OER activity of oxygen-defective Co3O4. The (001)-faceted Co3O4 cubes with oxygen vacancies exhibited a lower onset overpotential of 298 mV than that of multifaceted truncated octahedrons (335 mV) because of the sufficient lattice oxygen participation in the OER process. Theoretical calculations revealed that oxygen vacancy on (001) surfaces can upshift the O 2p band center and trigger the lattice oxygen oxidation mechanism while oxygen vacancy on (111) surfaces matched well with the absorbate evolution mechanism. This work offers a new insight for designing OER electrocatalysts by selectively introducing oxygen defects on well-defined crystal facets.
AbstractList Introducing oxygen vacancies into Co-based oxides with different surface structures can significantly affect their coordination environments and electronic structures, possibly contributing to the variation of the electrocatalytic oxygen evolution reaction (OER) activity. Herein, the oxygen vacancies were introduced into Co3O4 cubes and truncated octahedrons to uncover the effects of facets (001) and (111) on the intrinsic OER activity of oxygen-defective Co3O4. The (001)-faceted Co3O4 cubes with oxygen vacancies exhibited a lower onset overpotential of 298 mV than that of multifaceted truncated octahedrons (335 mV) because of the sufficient lattice oxygen participation in the OER process. Theoretical calculations revealed that oxygen vacancy on (001) surfaces can upshift the O 2p band center and trigger the lattice oxygen oxidation mechanism while oxygen vacancy on (111) surfaces matched well with the absorbate evolution mechanism. This work offers a new insight for designing OER electrocatalysts by selectively introducing oxygen defects on well-defined crystal facets.
Author Chen, Wei
Shao, Cuiping
Jin, Hongqiang
Liu, Dongming
Ke, Zhongyuan
Xu, Xinyue
Cheng, Yuwen
Da, Yumin
Chen, Xiang
AuthorAffiliation Department of Chemistry
School of Materials Science and Engineering
Key Lab of Efficient Conversion and Solid-State Storage of Hydrogen&Electricity, Anhui Province
Department of Physics
AuthorAffiliation_xml – name: Department of Physics
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Snippet Introducing oxygen vacancies into Co-based oxides with different surface structures can significantly affect their coordination environments and electronic...
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Title Facet-Dependent Lattice Oxygen Activation on Oxygen-Defective Co3O4 for Electrocatalytic Oxygen Evolution Reaction
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