Ganzhou
China
Jiangxi University of Science and Technology - College of Rare Earths
Mo nano-powder, NdFeB magnets, Dual alloy method, Microstructure, Magnetic properties
Mo nano-powder, NdFeB magnets, Dual alloy method, Microstructure, Magnetic Properties
Core-shell structure, MnFe2O4, Metal-Organic frameworks, electromagnetic wave absorption
Absorbing materials, MnFe2O4, Interfacial polarization, ZIF-8
Microwave absorbing material, FeSiCr, Core-shell structure, Impedance matching
Absorbing materials, SiC nanowhiskers, MOFs materials, Calcination, Impedance matching, Magnetic loss
Wave-absorbing materials, FeSiCr, MoS2, Hydrothermal method
Absorbing materials, Wave-transparent material SiO2, MnFe2O4 ferrites, ZIF-8
Microwave absorbing materials, Flaky FeSiCr alloy powder, Carbonization heat treatment, Impedance matching
Microwave absorption material, Heterointerfaces, Carbon/iron-based materials, Oxygen atmosphere heat treatment
Electromagnetic wave absorbing materials, Covalent organic framework materials, Double-shell structure, Magnetoelectric synergy
FeSiCr powder, vacuum annealing, grain size, wave absorbing properties
Mn-Zn ferrite, Electromagnetic wave absorption, Derived carbon, Ni-ZIF
SiC nanowires, CNTs loaded Co particles, Multiple loss synergies, High-temperature wave-absorbing materials
FeSiBNbCu nano-amorphous, MIL-101(Fe), absorbing materials
FeSiBNbCu, in situ composite, absorbing materials, amorphous
Absorbing materials, SiC nanowhiskers, carbon nanotube, dielectric loss
NiZn-Ferrite, Ni-MOF74, Ti3C2Tx MXene, Electromagnetic wave absorption, porous and multilayer structure
Absorbing materials, MOF derivatives, FeSiB based amorphous soft magnetic alloy, Electromagnetic wave loss mechanism
Absorbing materials, MOF derivatives, FeSiB-based amorphous, heterogeneous structure
Ceramic SiC, Co-CNT, Multiple loss synergies, High-temperature wave-absorbing materials