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Nanocrystalline high-entropy hexaboride ceramics enable remarkable performance as thermionic emission cathodes

Mengdong Ma, Xinyu Yang, Hong Meng, Zhisheng Zhao, Julong He, Yanhui Chu

2022Fundamental Research25 citationsDOIOpen Access PDF

Abstract

The development of high-entropy borides with combined structural and functional performance holds untold scientific and technological potential, yet relevant studies have been rarely reported. In this work, we report nanocrystalline (La0.25Ce0.25Nd0.25Eu0.25)B6 high-entropy rare-earth hexaboride (HEReB6-1) ceramics fabricated through the high-pressure sintering of self-synthesized nanopowders for the first time. The as-fabricated samples exhibited a highly dense (96.3%) nanocrystalline (94 nm) microstructure with major (001) fiber textures and good grain boundaries without any impurities, resulting in a remarkable mechanical, electrical, and thermionic emission performance. The results showed that the samples possessed outstanding comprehensive mechanical properties and a high electrical resistivity from room temperature to high temperatures; these were greater than the average values of corresponding binary rare-earth hexaborides, such as a Vickers hardness of 23.4 ± 0.6 GPa and a fracture toughness of 3.0 ± 0.4 MPa•m1/2 at room temperature. More importantly, they showed high emission current densities at elevated temperatures, which were higher than the average values of the corresponding binary rare-earth hexaborides. For instance, the maximum emission current density reached 48.3 A•cm−2 at 1873 K. Such superior performance makes the nanocrystalline HEReB6-1 ceramics highly suitable for potential applications in thermionic emission cathodes.

Topics & Concepts

Nanocrystalline materialMaterials scienceThermionic emissionCeramicMicrostructureElectrical resistivity and conductivityCathodeSinteringAnalytical Chemistry (journal)Composite materialMetallurgyNanotechnologyElectronPhysical chemistryElectrical engineeringChemistryChromatographyPhysicsEngineeringQuantum mechanicsHigh Entropy Alloys StudiesDiamond and Carbon-based Materials ResearchMetal and Thin Film Mechanics
Nanocrystalline high-entropy hexaboride ceramics enable remarkable performance as thermionic emission cathodes | Litcius