Proc. Natl. Acad. Sci. U.S.A.
 2024
DOI: 10.1073/pnas.2318652121
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Tailoring atomic chemistry to refine reaction pathway for the most enhancement by magnetization in water oxidation

Tianze Wu,
Jingjie Ge,
Qian Wu
et al.

Abstract: Water oxidation on magnetic catalysts has generated significant interest due to the spin-polarization effect. Recent studies have revealed that the disappearance of magnetic domain wall upon magnetization is responsible for the observed oxygen evolution reaction (OER) enhancement. However, an atomic picture of the reaction pathway remains unclear, i.e., which reaction pathway benefits most from spin-polarization, the adsorbent evolution mechanism, the intermolecular mechanism (I2M), the lattice oxygen-mediated… Show more

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Cited by 6 publications
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Creating Spin Channels in SrCoO3 through Trigonal‐to‐Cubic Structural Transformation for Enhanced Oxygen Evolution/Reduction Reactions

Guan,
Wang,
Chen
et al. 2024
Angewandte Chemie
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Creating Spin Channels in SrCoO3 through Trigonal‐to‐Cubic Structural Transformation for Enhanced Oxygen Evolution/Reduction Reactions

Guan,
Wang,
Chen
et al. 2024
Angewandte Chemie
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Creating Spin Channels in SrCoO3 through Trigonal‐to‐Cubic Structural Transformation for Enhanced Oxygen Evolution/Reduction Reactions

Guan,
Wang,
Chen
et al. 2024
Angew Chem Int Ed
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Diverse effects of ferromagnetic-paramagnetic phase transition on the activity and selectivity of ferromagnetic catalysts

Chen,
Liu,
Xu
et al. 2024
Journal of Catalysis
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