AI Utilized to Discover Novel Magnetic Materials Sans Critical Elements Ames National Laboratory researchers with Critical Materials Institute used artificial intelligence to develop novel magnetic materials without critical elements
R&D 100 Winners for 2023 are announced: CMI magnet process wins R&D 100 Award special award for green technology R&D 100 Winners for 2023 are announced: CMI magnet process wins R&D 100 Award special award for green technology
R&D 100 Winners for 2023 are announced: CMI magnet process wins R&D 100 Award R&D 100 Winners for 2023 are announced: CMI magnet process wins R&D 100 Award
R&D 100 Winners for 2023 are announced: CMI magnet technology wins R&D 100 Award R&D 100 Winners for 2023 are announced: CMI magnet technology wins R&D 100 Award
Ford Opening Michigan Plant to Make Batteries That Could Bring EV Costs Down CMI Affiliate Ford Opening Michigan Plant to Make Batteries That Could Bring EV Costs Down
Science News: How rare earth elements’ hidden properties make modern technology possible CMI leaders and researchers are featured in several recent articles in Science News. This one of three stories, and quotes CMI project lead Durga Paudyal, Ames National Laboratory.
Improving rare-earth-free magnets through microstructure engineering Researchers from the Department of Energy’s Critical Materials Institute (CMI) and Ames National Laboratory have improved the properties of a rare-earth-free permanent magnet material and demonstrated the process can be upscaled for manufacturing.
CWRU: Rohan Akolkar elected senior member of National Academy of Inventors CMI Team member Case Western Reserve University story "Rohan Akolkar elected senior member of National Academy of Inventors" features CMI project lead
CWRU: Scientists developing climate-friendly method to process ‘rare earth’ minerals; could make U.S. less reliant on foreign metals Case Western Reserve University story "Scientists developing climate-friendly method to process ‘rare earth’ minerals; could make U.S. less reliant on foreign metals" features CMI project lead Rohan Akolkar
A well-known iron-based magnet is also a potential quantum information material Scientists pursuing better performance in an iron-based magnet also discovered wide-gap semiconducting behavior and a quantum state useful for quantum information processing—all in a single low-cost material.
