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Facet-dependent reactivity of ceria nanoparticles exemplified by CeO2-based transition metal catalysts: a critical review

Konsolakis Michail, Lykaki Maria

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URIhttp://purl.tuc.gr/dl/dias/15E1EB97-1EFC-425F-80B1-5879978C0EFB-
Αναγνωριστικόhttps://doi.org/10.3390/catal11040452-
Αναγνωριστικόhttps://www.mdpi.com/2073-4344/11/4/452-
Γλώσσαen-
Μέγεθος25 pagesen
ΤίτλοςFacet-dependent reactivity of ceria nanoparticles exemplified by CeO2-based transition metal catalysts: a critical reviewen
ΔημιουργόςKonsolakis Michailen
ΔημιουργόςΚονσολακης Μιχαηλel
ΔημιουργόςLykaki Mariaen
ΔημιουργόςΛυκακη Μαριαel
ΕκδότηςMDPIen
ΠερίληψηThe rational design and fabrication of highly-active and cost-efficient catalytic materials constitutes the main research pillar in catalysis field. In this context, the fine-tuning of size and shape at the nanometer scale can exert an intense impact not only on the inherent reactivity of catalyst’s counterparts but also on their interfacial interactions; it can also opening up new horizons for the development of highly active and robust materials. The present critical review, focusing mainly on our recent advances on the topic, aims to highlight the pivotal role of shape engineering in catalysis, exemplified by noble metal-free, CeO2-based transition metal catalysts (TMs/CeO2). The underlying mechanism of facet-dependent reactivity is initially discussed. The main implications of ceria nanoparticles’ shape engineering (rods, cubes, and polyhedra) in catalysis are next discussed, on the ground of some of the most pertinent heterogeneous reactions, such as CO2 hydrogenation, CO oxidation, and N2O decomposition. It is clearly revealed that shape functionalization can remarkably affect the intrinsic features and in turn the reactivity of ceria nanoparticles. More importantly, by combining ceria nanoparticles (CeO2 NPs) of specific architecture with various transition metals (e.g., Cu, Fe, Co, and Ni) remarkably active multifunctional composites can be obtained due mainly to the synergistic metalceria interactions. From the practical point of view, novel catalyst formulations with similar or even superior reactivity to that of noble metals can be obtained by co-adjusting the shape and composition of mixed oxides, such as Cu/ceria nanorods for CO oxidation and Ni/ceria nanorods for CO2 hydrogenation. The conclusions derived could provide the design principles of earth-abundant metal oxide catalysts for various real-life environmental and energy applications.en
ΤύποςΑνασκόπησηel
ΤύποςReviewen
Άδεια Χρήσηςhttp://creativecommons.org/licenses/by/4.0/en
Ημερομηνία2022-12-19-
Ημερομηνία Δημοσίευσης2021-
Θεματική ΚατηγορίαCeria morphological effectsen
Θεματική ΚατηγορίαShape effects in catalysisen
Θεματική ΚατηγορίαCeO2-based catalystsen
Θεματική ΚατηγορίαCO oxidationen
Θεματική ΚατηγορίαN2O decompositionen
Θεματική ΚατηγορίαCO2 hydrogenationen
Βιβλιογραφική ΑναφοράM. Konsolakis and M. Lykaki, “Facet-dependent reactivity of ceria nanoparticles exemplified by CeO2-based transition metal catalysts: a critical review,” Catalysts, vol. 11, no. 4, Mar. 2021, doi: 10.3390/catal11040452.en

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