High-performance magnets based on Sm2Fe17 CMI researchers at Oak Ridge National Laboratory conducted the research for this highlight
Fe substitution into SmCo5 for enhanced magnetic performance CMI researchers at Ames Laboratory conducted the research for this highlight
Dual powder approach yields new magnet fabrication method CMI researchers at Ames Laboratory conducted the research for this highlight
Discovery of new high Curie temperature ferromagnets from database analysis CMI researchers at University of California, Davis conducted the research for this highlight
Semihard iron-based "gap" magnets CMI researchers at Oak Ridge National Laboratory conducted the research for this highlight
Dual powder approach yields 29 MG-Oe in La- and Co- substituted Nd2Fe14B The CMI researchers at Ames Laboratory conducted the research for this highlight
Sm2Fe17N3 as a cost-effective high performance magnet CMI researchers at Ames Laboratory conducted the research for this highlight
Ce-based magnet with (BH)max of 18+ MGOe CMI researchers at Ames Laboratory conducted the research for this highlight
Ce-substituted SmCo5 retains huge magnetic anisotropy CMI researchers at Ames Laboratory conducted the research for this highlight
High-performance critical-element-free permanent magnets CMI researchers at Ames Laboratory conducted the research for this highlight
