Oxygen vacancy and valence engineering in CeO 2 through distinct sized ion doping and their impact on oxygen reduction reaction catalysis

Defect tuning in ceria to enhance its catalytic properties is a subject of great interest for the scientific community owing to the growing demand for catalytic materials in drug, automobile and chemical industries. Doping induced defect engineering was found to be one of the most sought out strateg...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2022-12, Vol.51 (48), p.18572-18582
Main Authors: Das, Debarati, Prakash, Jyoti, Goutam, U K, Manna, S, Gupta, Santosh K, Sudarshan, K
Format: Article
Language:English
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Summary:Defect tuning in ceria to enhance its catalytic properties is a subject of great interest for the scientific community owing to the growing demand for catalytic materials in drug, automobile and chemical industries. Doping induced defect engineering was found to be one of the most sought out strategies particularly in oxides for achieving multifunctionality. Here, in this study, we have doped ceria with distinct sized trivalent rare-earth ions, namely, Y , Eu and La , using combustion techniques. Positron annihilation lifetime spectroscopy (PALS) suggested enhanced defect density with doping in general and higher concentration of oxygen vacancies in La doped ceria compared to Y and Eu counterparts. X-ray photoelectron spectroscopy (XPS) suggested the existence of both Ce and Ce , with the former having higher fraction in CeO :La compared to CeO :Y . The electron transfer resistance ( ) reduced in all the doped samples when compared to undoped ceria and they demonstrated improved catalytic activity towards the oxygen reduction reaction (ORR). The highest reduction in was seen in the 5% La doped sample owing to the very high concentration of oxygen vacancies and Ce /Ce ratio and CeO :5.0% La showed the best performance towards ORR electrocatalysis. The studies are expected to help in further tuning the catalysts in terms of dopant concentrations, and in future work, the strategy will be to control the Ce /Ce ratio and see its implication in both catalytic and magnetic applications.
ISSN:1477-9226
1477-9234
DOI:10.1039/d2dt03198a