ferroelectricity tagged posts

If new and promising semiconductor materials are to make it into our phones, computers, and other increasingly capable electronics, researchers must obtain greater control over how those materials function.

In an article published today in Science Advances, Rensselaer Polytechnic Institute researchers detailed how they designed and synthesized a unique material with controllable capabilities that make it very promising for future electronics.

The researchers synthesized the material an organic-inorganic hybrid crystal made up of carbon, iodine, and lead and then demonstrated that it was capable of two material properties previously unseen in a single material...

Elliptical orbits of bismuth surface electrons in a large magnetic field. The orientation and interference patterns of the electronic states reveal that the electrons prefer to occupy a single valley. Image created using a theoretical model of the data.
Credit: Ali Yazdani Laboratory, Princeton University

Researchers have made a finding that could help usher in new area of technology called ‘valleytronics.’ The study found that electrons in bismuth crystals prefer to collect in one valley rather than being distributed equally across valleys, setting up a type of electricity known as ferroelectricity. Energy valleys forming in crystals can trap single electrons. These valleys potentially could be used to store information, greatly enhancing what is capable with modern electronic devices.

In ...

From the spinning disc of a computer’s hard drive to varying current in a transformer, many technological devices work by merging electricity and magnetism. Enter multiferroics, which combine 2 or more primary ferroic properties. Northwestern University’s James Rondinelli and his research team are interested in combining ferromagnetism and ferroelectricity, which rarely coexist in one material at room temperature.

In order for ferroelectricity to exist, the material must be insulating. So nearly every approach to date has focused on searching for multiferroics in insulating magnetic oxides. Rondinelli’s team started with a different approach...