The latest news from academia, regulators
research labs and other things of interest
Posted: Feb 24, 2015
New 'knobs' can dial in control of materials
(Nanowerk News) Designing or exploring new materials is all about controlling their properties. In a new study, Cornell scientists offer insight on how different “knobs” can change material properties in ways that were previously unexplored or misunderstood.
An artist’s rendering of strontium iridate, an oxide whose properties can be controlled by applying spin-orbit interactions or changing molecular bond angles. (Image: Brendan Faeth)
The bread-and-butter methods of tuning materials’ properties include introducing impurities, such as chemical dopants, or modifying their atomic structures. Here, the researchers took a different approach, by employing an effect known as the spin-orbit interaction. This is the phenomenon an electron experiences when moving past another charged object, such as the atomic nucleus, and it is particularly pronounced in heavier elements near the bottom of the periodic table.
Typical complex electronic materials are “transition metal oxides,” where the metal is usually a lighter element such as copper, manganese, titanium or nickel. In this study, Shen and his group replaced the lighter transition metal with a much heavier element – iridium, a very rare element often found in meteorites. This replacement enhanced the effect of the spin-orbit interactions in the compound strontium iridate (SrIrO3).
In the absence of spin-orbit interactions, theoretical calculations predicted that strontium iridate would be a conventional metal. However, the researchers discovered that the strong spin-orbit interactions caused strontium iridate to teeter on the brink of being either a metal or a semiconductor – a “semimetal.”
Small disturbances to the crystal structure would cause the material to flip from being insulating to metallic, suggesting that the spin-orbit interaction could be a new way of controlling the electronic properties of complex materials.