Author: ["Thomas E. Weller","Mark Ellerby","Siddharth S. Saxena","Robert P. Smith","Neal T. Skipper"]
CITE.CC academic search helps you expand the influence of your papers.
Abstract
Low dimensionality is generally considered as a necessary ingredient for high superconducting transition temperatures. Surprisingly, perhaps, systems based on graphite1,2,3 have received little attention in this context. Introducing metal atoms between the carbon layers can tune the interlayer spacing and charging of the graphite host through a variety of electronic ground states. One such ground state is superconductivity3, which is not present in pure graphite. Here we report the discovery of superconductivity in the intercalation compounds C6Yb and C6Ca, with transition temperatures of 6.5 and 11.5 K, respectively. These critical temperatures are unprecedented in graphitic systems and have not been explained by a simple phonon mechanism for the superconductivity. This discovery has already stimulated several proposals for the superconducting mechanism4,5,6 that range from coupling by way of the intercalant phonons through to acoustic plasmons. It also points towards the potential of superconductivity in systems such as carbon nanotubes.Cite this article
Weller, T., Ellerby, M., Saxena, S. et al. Superconductivity in the intercalated graphite compounds C6Yb and C6Ca . Nature Phys 1, 39–41 (2005). https://doi.org/10.1038/nphys0010 