Component Management

Understanding how electrons turn to glass

24th October 2017
Enaie Azambuja
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Researchers at Tohoku University have gained insight into the electronic processes that guide the transformation of liquids into a solid crystalline or glassy state. The ability of some liquids to transition into glass has been exploited since ancient times. But many fundamental aspects of this transition phase are far from understood. Better understanding could spur the development of products such as DVDs or Blu-Ray discs that store data by altering their state of matter from one to another.

A multi-institutional Japanese team led by Kenichiro Hashimoto of Tohoku University's Institute for Materials Research compared the molecular dynamics of glass formation in conventional liquids, such as glucose, to an organic metal material containing 'frustrated' electrons.

These electrons, responsible for conducting electrical currents, are unable to reach their lowest energy state due to their geometric arrangement on the material's crystal lattice.

Slow cooling of conventional glass-forming liquids causes their atoms to organise themselves into regular arrangements, producing a crystallised material. When the researchers slowly cooled the organic metal they were testing, its frustrated electrons similarly organised into a regular pattern and crystallised.

However, when the material was cooled more quickly, crystallisation was avoided and the material's frustrated electrons re-organised, turning into glass in a manner similar to conventional glass-forming liquids.

The results highlight the universal nature of the liquid-to-glass transition phase. The researchers believe their organic metal provides a convenient test platform for studying the fundamental properties of the liquid-to-glass transition.

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