Direct Observation of Superconductivity in Calcium-Intercalated Bilayer Graphene by in situ Electrical Transport Measurements

Abstract

We report the superconductivity in Ca-intercalated bilayer graphene C6CaC6, the thinnest limit of Ca graphite intercalation compound. We performed in situ electrical transport measurements on pristine bilayer graphene, C6LiC6 and C6CaC6 fabricated on SiC substrate under zero and non-zero magnetic field. While both bilayer graphene and C6LiC6 show non-superconducting behavior, C6CaC6 exhibits the superconductivity with transition temperature (T c) of 4.0 K. The observed T c in C6CaC6 and the absence of superconductivity in C6LiC6 show a good agreement with the theoretical prediction, suggesting the importance of a free-electron-like metallic band at the Fermi level to drive the superconductivity.