Engineering exsolved catalysts for CO2 conversion

Ali, Swali A. and Safi, Manzoor and Merkouri, Loukia-Pantzechroula and Soodi, Sanaz and Iakovidis, Andreas and Duyar, Melis S. and Neagu, Dragos and Reina, Tomas Ramirez and Kousi, Kalliopi (2023) Engineering exsolved catalysts for CO2 conversion. Frontiers in Energy Research, 11. 1150000. ISSN 2296-598X (https://doi.org/10.3389/fenrg.2023.1150000)

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Abstract

Introduction: Innovating technologies to efficiently reduce carbon dioxide (CO2) emission or covert it into useful products has never been more crucial in light of the urgent need to transition to a net-zero economy by 2050. The design of efficient catalysts that can make the above a viable solution is of essence. Many noble metal catalysts already display high activity, but are usually expensive. Thus, alternative methods for their production are necessary to ensure more efficient use of noble metals. Methods: Exsolution has been shown to be an approach to produce strained nanoparticles, stable against agglomeration while displaying enhanced activity. Here we explore the effect of a low level of substitution of Ni into a Rh based A-site deficienttitanate aiming to investigate the formation of more efficient, low loading noblemetal catalysts. Results: We find that with the addition of Ni in a Rh based titanate exsolution is increased by up to ∼4 times in terms of particle population which in turn results in up to 50% increase in its catalytic activity for CO2 conversion. Discussion: We show that this design principle not only fulfills a major research need in the conversion of CO2 but also provides a step-change advancement in the design and synthesis of tandem catalysts by the formation of distinct catalytically active sites.

ORCID iDs

Ali, Swali A., Safi, Manzoor, Merkouri, Loukia-Pantzechroula, Soodi, Sanaz, Iakovidis, Andreas, Duyar, Melis S., Neagu, Dragos ORCID logoORCID: https://orcid.org/0000-0001-7208-1055, Reina, Tomas Ramirez and Kousi, Kalliopi;