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- Doping Ti as structural and electronic promoter in LaFeO3 for enhanced chemical looping dry reforming of methane[J].Chemical Engineering Journal,2025,511(
- Subsurface A-site vacancy activates lattice oxygen in perovskite ferrites for methane anaerobic oxidation to syngasNature Communications,2024,
- Improving the carbon resistance of iron-based oxygen carrier for hydrogen production via chemical looping steam methane reforming: A reviewFuel,2023,
- Asymmetric coordination activated lattice oxygen in perovskite ferrites for selective anaerobic oxidation of methaneJournal of Materials Chemistry A,2023,
- Boosted carbon resistance of ceria-hexaaluminate by in-situ formed CeFexAl1-xO3 as oxygen pool for chemical looping dry reforming of methaneApplied Catalysis B: Environmental,2023,
- Oxygen activity tuning via FeO6 octahedral tilting in perovskite ferrites for chemical looping dry reforming of methaneACS Catalysis,2022,
- Intensified solar thermochemical CO2 splitting over iron-based redox materials via perovskite-mediated dealloying-exsolution cyclesChinese Journal of Catalysis,2021,
- Effect of calcination temperature on the performance of hexaaluminate supported CeO2 for chemical looping dry reformingFuel Processing Technology,2021,
- Thermodynamic analysis of chemical looping coupling process for coproducing syngas and hydrogen with in situ CO2 utilizationEnergy Conversion and Management,2021,
- Identifying the role of A-site cations in modulating oxygen capacity of iron-based perovskite for enhanced chemical looping methane-to-syngas conversionACS Catalysis,2020,