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SUMMARY:Unlocking Magnetocrystalline Anisotropy From Low Coordinate Transit
 ion Metals
LOCATION:Chemistry A101
TZID:America/Denver
DTSTART:20231114T160000
UID:2026-06-02-09-20-56@natsci.colostate.edu
DTSTAMP:20260602T092056
Description:Abstract:\n\nAs the demands for energy generation continue to i
 ncrease\, clean energy technologies are crucial. A key component to many o
 f these technologies is the use of permanent magnets (PMs). In the develop
 ment of PMs\, there is a push to move away from the rare earth elements (R
 EEs) commonly used for cheaper\, more abundant transition metals. The main
  challenge with this is understanding how to control the emergence of key 
 magnetic properties such as mangnetocrystalline anisotropy and coercivity 
 in materials that do not contain the f-orbitals found in REE-based magnets
 . This work by Chamberlain et al. on Li2(Li1-xFex)N\, the model REE-free m
 agnetic material\, explores the emergence of large uniaxial magnetocrystal
 line anisotropy and coercivity due to the single-ion effect of low-coordin
 ation iron. A deeper understanding of how to control these properties is i
 nvaluable for the design and synthesis of new high-performance REE-free ma
 gnetic materials. 4:00 pm
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