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Fast fabrication of a hierarchical nanostructured multifunctional ferromagnet

Yingxin Hua, Xiaohong Li, Jiaxu Li, Xiang Luo, Yuqing Li, Wenyue Qin, Liqiang Zhang, Jianwei Xiao, Weixing Xia, Ping Song, Ming Yue, Haitian Zhang, Xiangyi Zhang

2024Science77 citationsDOI

Abstract

Materials with multifunctionality affect society enormously. However, the inability to surmount multiple functionality trade-offs limits the discovery of next-generation multifunctional materials. Departing from conventional alloying design philosophy, we present a hierarchical nanostructure (HNS) strategy to simultaneously break multiple performance trade-offs in a material. Using a praseodymium-cobalt (PrCo 5 ) ferromagnet as a proof of concept, the resulting HNS outperforms contemporary high-temperature ferromagnets with a 50 to 138% increase in electrical resistivity while achieving their highest energy density. Our strategy also enables an exceptional thermal stability of coercivity (−0.148%/°C)—a key characteristic for device accuracy and reliability—surpassing that of existing commercial rare-earth magnets. The multifunctionality stems from the deliberately introduced nanohierarchical structure, which activates multiple micromechanisms to resist domain wall movement and electron transport, offering an advanced design concept for multifunctional materials.

Topics & Concepts

Materials scienceFerromagnetismCoercivityNanotechnologyNanostructureFabricationMagnetCobaltPraseodymiumEngineering physicsMechanical engineeringCondensed matter physicsMetallurgyPathologyMedicineEngineeringPhysicsAlternative medicineMagnetic and transport properties of perovskites and related materialsMagnetic Properties of AlloysMagnetic properties of thin films
Fast fabrication of a hierarchical nanostructured multifunctional ferromagnet | Litcius