Plastic crystals could improve fabrication of memory devices

01 Sep 2016

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Applying an electric field to some materials causes their atoms to "switch" their electric polarisation from one direction to another, making one side of the material positive and the other negative.

 
The newly synthesized crystal is ferroelectric above room temperature (a-b, e-f) and turns into "plastic phase", meaning highly deformable, at higher temperature (a to c). The electric polarity of each molecule can be aligned in one direction by applying electric field as it cools (c to e / Image courtsey:Harada J. et al., July 11, 2016, Nature Chemistry, DOI: 10.1038/NCHEM.2567  

This switching property of "ferroelectric" materials allows them to be used in a wide range of applications. For example, ferroelectric capacitors are used to store binary bits of data in memory devices.

Researchers at Japan's Hokkaido University have developed a novel ferroelectric plastic crystal that could accelerate the development of more flexible, cost-efficient and less toxic ferroelectrics than those currently in use.

The crystal is ferroelectric above room temperature, then turns into a plastic, more pliable phase at higher temperatures. At the higher temperatures, the molecules in the crystal have randomly different polarity axes, but they can be aligned in one direction by applying an electric field as the crystal cools, bringing it back to a ferroelectric state.

Being able to control the polarity in this manner addresses a major challenge previously faced by researchers working with organic compound-based ferroelectric crystals. These are less symmetric than inorganic crystals, and can thus be polarized only in one direction leading to a very weak overall polarization of randomly oriented crystals.

A distinct advantage of this particular crystal is its transition to a plastic state when heat is applied. This plasticity - as opposed to fracturing that occurs in regular organic and inorganic crystals when a mechanical stress is applied - makes it extremely advantageous for use as a thin ferroelectric film in devices, such as non-volatile ferroelectric random-access memory devices, which maintain memory when the power is turned off.

Exploring crystals composed of molecules similar to quinuclidine could lead to the discovery of more ferroelectric crystals, write the researchers in their paper published in the journal Nature Chemistry. Chemical modifications of the molecules' constituent ions could also improve their performance, the researchers add.

 

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