Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction
Activating the lattice oxygen can significantly improve the kinetics of oxygen evolution reaction (OER), however, it often results in reduced stability due to the bulk structure degradation. Here, we develop a spinel Fe0.3Co0.9Cr1.8O4 with active lattice oxygen by high-throughput methods, achieving...
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sg-ntu-dr.10356-1824302025-02-03T01:34:11Z Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction Ahmed, Mahmoud Gamal Tay, Ying Fan Chi, Xiao Razeen, Ahmed S. Fang, Yanan Zhang, Mengyuan Sng, Anqi Chiam, Sing Yang Rusydi, Andrivo Wong, Lydia Helena School of Materials Science and Engineering School of Electrical and Electronic Engineering Singapore-HUJ Alliance for Research and Enterprise Energy Research Institute @ NTU (ERI@N) Engineering Active lattice oxygen Cation migration Activating the lattice oxygen can significantly improve the kinetics of oxygen evolution reaction (OER), however, it often results in reduced stability due to the bulk structure degradation. Here, we develop a spinel Fe0.3Co0.9Cr1.8O4 with active lattice oxygen by high-throughput methods, achieving high OER activity and stability, superior to the benchmark IrO2. The oxide exhibits an ultralow overpotential (190 mV at 10 mA cm-2) with outstanding stability for over 170 h at 100 mA cm-2. Soft X-ray absorption- and Raman-spectroscopies, combined with 18O isotope-labelling experiments, reveal that lattice oxygen activation is driven by Cr oxidation, which induces a cation migration from CrO6 octahedrons to CrO4 tetrahedrons. The geometry conversion creates accessible non-bonding oxygen states, crucial for lattice oxygen oxidation. Upon oxidation, peroxo O-O bond is formed and further stabilized by Cr6+ (CrO4 tetrahedra) via dimerization. This work establishes a new approach for designing efficient catalysts that feature active and stable lattice oxygen without compromising structural integrity. Ministry of Education (MOE) National Research Foundation (NRF) This research is partially supported by grants from the National Research Foundation, Prime Minister’s Office, Singapore under its Campus of Research Excellence and Technological Enterprise (CREATE) programme. This work was partially supported by Singapore Ministry of Education (MOE) AcRF Tier 2 grant (MOE T2EP50120-00081) and Tier 1 grant (2020-T1-001-147 (RG64/20)). The work at NUS was supported by the MOE AcRF Tier-2 (T2EP50122-0028 and T2EP50220-0041). 2025-02-03T01:34:11Z 2025-02-03T01:34:11Z 2024 Journal Article Ahmed, M. G., Tay, Y. F., Chi, X., Razeen, A. S., Fang, Y., Zhang, M., Sng, A., Chiam, S. Y., Rusydi, A. & Wong, L. H. (2024). Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction. Angewandte Chemie (International Ed. in English), e202416757-. https://dx.doi.org/10.1002/anie.202416757 1433-7851 https://hdl.handle.net/10356/182430 10.1002/anie.202416757 39523477 2-s2.0-85209898559 e202416757 en CREATE MOE T2EP50120-00081 2020-T1-001-147 (RG64/20) Angewandte Chemie (International ed. in English) © 2024 Wiley-VCH GmbH. All rights reserved. |
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Engineering Active lattice oxygen Cation migration |
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Engineering Active lattice oxygen Cation migration Ahmed, Mahmoud Gamal Tay, Ying Fan Chi, Xiao Razeen, Ahmed S. Fang, Yanan Zhang, Mengyuan Sng, Anqi Chiam, Sing Yang Rusydi, Andrivo Wong, Lydia Helena Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| description |
Activating the lattice oxygen can significantly improve the kinetics of oxygen evolution reaction (OER), however, it often results in reduced stability due to the bulk structure degradation. Here, we develop a spinel Fe0.3Co0.9Cr1.8O4 with active lattice oxygen by high-throughput methods, achieving high OER activity and stability, superior to the benchmark IrO2. The oxide exhibits an ultralow overpotential (190 mV at 10 mA cm-2) with outstanding stability for over 170 h at 100 mA cm-2. Soft X-ray absorption- and Raman-spectroscopies, combined with 18O isotope-labelling experiments, reveal that lattice oxygen activation is driven by Cr oxidation, which induces a cation migration from CrO6 octahedrons to CrO4 tetrahedrons. The geometry conversion creates accessible non-bonding oxygen states, crucial for lattice oxygen oxidation. Upon oxidation, peroxo O-O bond is formed and further stabilized by Cr6+ (CrO4 tetrahedra) via dimerization. This work establishes a new approach for designing efficient catalysts that feature active and stable lattice oxygen without compromising structural integrity. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Ahmed, Mahmoud Gamal Tay, Ying Fan Chi, Xiao Razeen, Ahmed S. Fang, Yanan Zhang, Mengyuan Sng, Anqi Chiam, Sing Yang Rusydi, Andrivo Wong, Lydia Helena |
| format |
Article |
| author |
Ahmed, Mahmoud Gamal Tay, Ying Fan Chi, Xiao Razeen, Ahmed S. Fang, Yanan Zhang, Mengyuan Sng, Anqi Chiam, Sing Yang Rusydi, Andrivo Wong, Lydia Helena |
| author_sort |
Ahmed, Mahmoud Gamal |
| title |
Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| title_short |
Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| title_full |
Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| title_fullStr |
Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| title_full_unstemmed |
Cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| title_sort |
cation migration-induced lattice oxygen oxidation in spinel oxide for superior oxygen evolution reaction |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182430 |
| _version_ |
1823108717854326784 |