High-performance permanent magnets play an indispensable role in manufacturing highly efficient motors and generators,ultimately contributing to the sustainability of our planet.Achieving high coercivity(µ0Hc)in ...High-performance permanent magnets play an indispensable role in manufacturing highly efficient motors and generators,ultimately contributing to the sustainability of our planet.Achieving high coercivity(µ0Hc)in hard magnetic materials at or above room temperature without relying on heavy rare-earth elements remains a challenge.Effective strategies for augmentingµ0Hc utilizing low-cost materials involve inter-granular addition and the grain-boundary diffusion(GBD)processes.This review provides a comprehensive overview of selected techniques for developing grain-boundary(GB)modification through a specific focus on the reduction of using heavy rare earth(HRE)elements and utilizing cost-effective non-rare earth and light rare earth(LRE)sources for GBD.To date,the successful application of HRE based metals and compounds,and LRE based alloys as diffusion sources has significantly contributed toµ0Hc enhancement.Drawing upon global advancements and findings from various research groups,this comprehensive review offers a critical analysis of the fundamentals and progress in GBD processes(GBDPs).Considering the different types of permanent magnets,the GBDPs,based on the diverse diffusion sources and diffusion processes,are thoroughly compared and summarized.This encapsulates the current state of knowledge in the field,providing valuable insights into the ongoing developments in GB modification to improve permanent magnet performance.展开更多
Organic light-emitting diodes utilizing thermally activated delayed fluorescence sensitizers and multiple-resonance(MR)dopants may simultaneously offer high efficiencies and narrow-band emissions,but these devices sti...Organic light-emitting diodes utilizing thermally activated delayed fluorescence sensitizers and multiple-resonance(MR)dopants may simultaneously offer high efficiencies and narrow-band emissions,but these devices still face intractable challenges with a lack of design rules for high-performance sensitizers.Here,sensitizers with ortho-arranged donor–acceptors on a(trifluoromethyl)benzene linker have been proposed,which not only facilitate relatively small molecular dipole moments but also combine through-bond and through-space charge transfers for fast reverse intersystem crossing(RISC).展开更多
基金financially supported by Yantai Dongxing Magnetic Materials Co.,Ltd.
文摘High-performance permanent magnets play an indispensable role in manufacturing highly efficient motors and generators,ultimately contributing to the sustainability of our planet.Achieving high coercivity(µ0Hc)in hard magnetic materials at or above room temperature without relying on heavy rare-earth elements remains a challenge.Effective strategies for augmentingµ0Hc utilizing low-cost materials involve inter-granular addition and the grain-boundary diffusion(GBD)processes.This review provides a comprehensive overview of selected techniques for developing grain-boundary(GB)modification through a specific focus on the reduction of using heavy rare earth(HRE)elements and utilizing cost-effective non-rare earth and light rare earth(LRE)sources for GBD.To date,the successful application of HRE based metals and compounds,and LRE based alloys as diffusion sources has significantly contributed toµ0Hc enhancement.Drawing upon global advancements and findings from various research groups,this comprehensive review offers a critical analysis of the fundamentals and progress in GBD processes(GBDPs).Considering the different types of permanent magnets,the GBDPs,based on the diverse diffusion sources and diffusion processes,are thoroughly compared and summarized.This encapsulates the current state of knowledge in the field,providing valuable insights into the ongoing developments in GB modification to improve permanent magnet performance.
基金supported by the National Key Basic Research and Development Program of China(grant no.2017YFA0204501)the National Natural Science Foundation of China(grant nos.51525304,51903137,U1601651,and 61890942)+1 种基金Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory(XHT2020-005)the Guangdong Major Project of Basic and Applied Basic Research(grant no.2019B030302009).
文摘Organic light-emitting diodes utilizing thermally activated delayed fluorescence sensitizers and multiple-resonance(MR)dopants may simultaneously offer high efficiencies and narrow-band emissions,but these devices still face intractable challenges with a lack of design rules for high-performance sensitizers.Here,sensitizers with ortho-arranged donor–acceptors on a(trifluoromethyl)benzene linker have been proposed,which not only facilitate relatively small molecular dipole moments but also combine through-bond and through-space charge transfers for fast reverse intersystem crossing(RISC).
