Room-Temperature Calcium Intercalation into Graphite Catalyzed by Sodium

Abstract

Calcium (Ca) insertion into graphite (C) has been considered to require elevated temperatures, and its occurrence at room temperature (RT) has been regarded as highly unlikely. Here, we demonstrate that sodium (Na) catalysis enables the formation of superconducting CaC6 even at RT. In mixtures of Ca, Na, and graphite, the gradual development of superconducting diamagnetism and the emergence of X-ray diffraction peaks confirm the formation of CaC6 during storage at RT. The superconducting transition temperature increases with storage time, and the amount of CaC6 scales proportionally to the square root of storage time. These findings provide new insights into the mechanism of superconductivity and Na-catalyzed formation of CaC6, and highlight the potential of this RT intercalation process for practical applications such as electrode materials in Ca-ion batteries.