A paper describing the research, led by an interdisciplinary team at Penn State’s U.S. National Science Foundation (NSF)-funded Materials Research Science and Engineering Center (MRSEC) for Nanoscale Science, was published today (April 13) in the journal Nature Materials. The team showed that when just three atomic layers of gallium are layered between graphene and a silicon carbide substrate, the resulting structure maintains superconductivity in magnetic fields that are parallel to the surface of the material, or in-plane, well above the expected limit.
“This discovery highlights the strength of collaborative, cross-disciplinary research fostered by the Penn State MRSEC,” said Cui-Zu Chang, professor of physics at Penn State Eberly College of Science and leader of the research team. “By bringing together expertise in materials synthesis, quantum transport and theoretical modeling, we were able to uncover a phenomenon that would have been difficult to realize within a single research group.”