Iron-Nitrogen Compound Forms Strongest Magnet Known

March 23rd, 2010

Possible solution to peak neodymium doom?

Via: PhysOrg:

A group of scientists from the University of Minnesota say that Fe16N2 crystals are more magnetic than the most magnetic material previously known, and its magnetism exceeds the predicted limit of magnetism for a material.

Magnetism arises with the spinning electrons in a material, and with every electron acting as a tiny magnet with its magnetic field aligned with the axis of spin. In most atoms electrons may spin either ‘up’ or ‘down’, but when most of them spin in the same direction, the material becomes magnetic. In iron, for example, there are four more spinning in one direction than in the other.

In a more complex material, the theory is that there are river-like bands of electron clouds formed as those of the individual atoms merge together. Each band contains electrons spinning in only one direction, and the material’s magnetism is determined by the difference between the numbers of each type of band. Using the theory, scientists have predicted that iron-cobalt should be the most magnetic material.

A group of materials physicists from Twin Cities, Minnesota, led by Jian-Ping Wang have found a material comprising 16 iron atoms and two of nitrogen is approximately 18% more magnetic than the predicted limit. The findings of x-ray analysis of the compound showed that six iron atoms are clustered around each nitrogen, with two more located between the two clusters. The researchers said electrons flowing between the clusters act like they do in ordinary iron, but within the clusters, the electrons tend to be localized, and this increases the magnetism.

If the magnets can be manufactured commercially they could allow computer manufacturers to use smaller write heads that could hold more information. The findings were reported at the American Physical Society’s meeting this month.

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