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Sight into a Rare-Earth-Based Catalyst with Spatial Confinement Effect from the Perspective of Electronic Structure

Huan Wang, Shiduo Yang, Wenlin Fan, Y. Cui, Guannan Gong, Lishi Jiao, Sen Chen, Jian Qi

2025ACS Applied Materials & Interfaces20 citationsDOI

Abstract

= 0-14), which results in rare-earth materials' unique activity in such areas as thermal catalysis, electrocatalysis, photocatalysis, etc. It is worth noting that a class of materials with spatial confinement effects are playing an increasingly important role in the catalytic performance; especially, the construction of hollow multishelled structures (HoMSs) can further enhance the activity of rare-earth catalytic materials. In this review, we discuss in depth the important roles of the rare-earth 4f5d electronic structure. Subsequently, this review systematically summarizes the synthesis methods of rare-earth HoMSs and their research progress in the field of catalysis and specifically introduces the advanced characterization and analysis methods of rare-earth HoMSs. Finally, the research directions, application prospects, and challenges that need to be focused on in the future of rare-earth-based HoMSs are discussed and anticipated. We believe that this review will not only inspire more creativity in optimizing the local electronic structure and spatial confinement structure design of rare-earth-based catalysts but also provide valuable insights for designing other types of catalysts.

Topics & Concepts

Materials sciencePerspective (graphical)Rare earthNanotechnologySightElectronic structureEngineering physicsAstrobiologyCatalysisEarth (classical element)Chemical physicsCondensed matter physicsOpticsMetallurgyPhysicsAstronomyOrganic chemistryChemistryComputer scienceArtificial intelligenceCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionAmmonia Synthesis and Nitrogen Reduction
Sight into a Rare-Earth-Based Catalyst with Spatial Confinement Effect from the Perspective of Electronic Structure | Litcius