Superconductors allow electricity to flow without resistance, meaning no energy is lost as heat. This property makes them useful for technologies such as MRI scanners, particle accelerators, magnetic-levitation trains and some power-transmission systems. Most superconductors, however, only work at extremely low temperatures — often hundreds of degrees below zero Fahrenheit. Keeping materials that cold requires complex and costly cooling systems, which limits where the superconductors can be used.
Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory have helped take a step toward easing that limitation. They have gained new insight into a class of materials called superhydrides that can become superconducting at much higher temperatures — around 10 degrees Fahrenheit.
The research was carried out with collaborators from the University of Illinois Chicago (UIC), the University of Chicago and DOE’s Lawrence Livermore National Laboratory. A key tool was the upgraded Advanced Photon Source (APS), a DOE Office of Science user facility at Argonne.
To read more, click here.