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High-entropy intermetallics: emerging inorganic materials for designing high-performance catalysts

Yuki Nakaya, Shinya Furukawa

2024Chemical Science32 citationsDOIOpen Access PDF

Abstract

Alloy materials have been used as promising platforms to upgrade catalytic performance that cannot be achieved with conventional monometallic materials. As a result of numerous efforts, the recent progress in the field of alloy catalysis has been remarkable, and a wide range of new advanced alloys have been considered as potential electro/thermal catalysts. Among advanced alloy materials, high-entropy intermetallics are novel materials, and their excellent catalytic performance has recently been reported. High-entropy intermetallics have several advantages over disordered solid-solution high-entropy alloys, that is, greater structural/thermal stability, more facile site isolation, more precise control of electronic structures, tunability, and multifunctionality. A multidimensional compositional space is indeed limitless, but such a compositional space also provides a well-designed surface configuration because of its ordered nature. In this review, we will provide fundamental insights into high-entropy intermetallics, including thermodynamic properties, synthesis requirements, characterization techniques, roles in catalysis, and reaction examples. The comprehensive information provided in this review will highlight the great application potential of high-entropy intermetallics for catalysis, and will accelerate the development of this newly developed field.

Topics & Concepts

IntermetallicMaterials scienceCatalysisEntropy (arrow of time)High entropy alloysThermal stabilityNanotechnologyThermodynamicsChemical engineeringChemistryMetallurgyPhysicsEngineeringMicrostructureOrganic chemistryAlloyHigh Entropy Alloys StudiesHigh-Temperature Coating BehaviorsElectrocatalysts for Energy Conversion
High-entropy intermetallics: emerging inorganic materials for designing high-performance catalysts | Litcius