Author
Listed:
- Weipeng Shao
(ShanghaiTech University)
- Yi Zhang
(Dalian Institute of Chemical Physics)
- Zhiwen Zhou
(Dalian Institute of Chemical Physics)
- Na Li
(Dalian Institute of Chemical Physics)
- Feng Jiao
(Dalian Institute of Chemical Physics)
- Yunjian Ling
(ShanghaiTech University
Dalian Institute of Chemical Physics)
- Yangsheng Li
(ShanghaiTech University
Dalian Institute of Chemical Physics)
- Zeyu Zhou
(ShanghaiTech University)
- Yunjun Cao
(Dalian Institute of Chemical Physics)
- Zhi Liu
(ShanghaiTech University)
- Xiulian Pan
(Dalian Institute of Chemical Physics)
- Qiang Fu
(Dalian Institute of Chemical Physics)
- Christof Wöll
(Karlsruhe Institute of Technology)
- Ping Liu
(Brookhaven National Laboratory)
- Xinhe Bao
(Dalian Institute of Chemical Physics)
- Fan Yang
(ShanghaiTech University
Dalian Institute of Chemical Physics)
Abstract
Ceria (CeO2) is a widely used oxide catalyst, yet the nature of its active sites remains elusive. This study combines model and powder catalyst studies to elucidate the structure-activity relationships in ceria-catalyzed CO activation and hydrogenation. Well-defined ceria clusters are synthesized on planar CeO2(111) and exhibit dynamic and tunable ranges of Ce coordination numbers, which enhance their interaction with CO. Reduced ceria clusters (e.g., Ce3O3) bind CO strongly and facilitate its dissociation, while near-stoichiometric clusters (e.g., Ce3O7) adsorb CO weakly and promote oxidation via carbonate formation. Unlike planar ceria surfaces, supported ceria clusters exhibit dynamic properties and enhanced catalytic activity, that mimic those of powder ceria catalysts. Insight from model studies provide a method to quantify active sites on powder ceria and guide further optimization of ceria catalysts for syngas conversion. This work marks a leap toward model-guided catalyst design and highlights the importance of site-specific catalysis.
Suggested Citation
Weipeng Shao & Yi Zhang & Zhiwen Zhou & Na Li & Feng Jiao & Yunjian Ling & Yangsheng Li & Zeyu Zhou & Yunjun Cao & Zhi Liu & Xiulian Pan & Qiang Fu & Christof Wöll & Ping Liu & Xinhe Bao & Fan Yang, 2024.
"Dynamic control and quantification of active sites on ceria for CO activation and hydrogenation,"
Nature Communications, Nature, vol. 15(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-53948-1
DOI: 10.1038/s41467-024-53948-1
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