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Superconducting Electride Li<sub>9</sub>S with a Transition Temperature above the McMillan Limit

Qianhui Wu, Xing Li, Xiaohua Zhang, Guochun Yang

2024Inorganic Chemistry12 citationsDOI

Abstract

An electride, characterized by unique interstitial anionic electrons (IAEs), offers promising avenues for modulating its superconductivity. The pressure-dependent coupling between IAEs and orbital electrons significantly affects the superconducting transition temperature ( T c ). However, existing research has predominantly concentrated on pressures within 300 GPa. To advance the understanding, we propose investigating the Li–S system under ultrahigh pressure to unveil novel electride superconductors. Five stable Li-rich electrides with diverse IAE topologies, including one Li 7 S, three Li 9 S, and one Li 12 S phases, are identified through structural search calculations. Among the Li 9 S phases, in the C 2/ c phase (600 GPa), the IAEs are connected to the S atomic extra-nuclear electrons with the unconventional d orbital attribute due to the extreme pressure, while two low-pressure R -3 (25 GPa) and C 2/ m (400 GPa) phases have interconnected IAEs. Due to its unique IAE attributes, C 2/ c Li 9 S exhibits the highest T c of 53.29 K at 600 GPa. Its superconductivity results from the coupling of the S d, Li p electrons, and IAEs with the low-frequency phonons associated with the attraction between IAEs and the Li–S framework. Our work enhances insights into IAEs within electrides and their role in facilitating superconductivity.

Topics & Concepts

ChemistrySuperconductivityLimit (mathematics)Condensed matter physicsTransition temperatureSuperconducting transition temperatureCrystallographyMathematical analysisPhysicsMathematicsInorganic Chemistry and MaterialsRare-earth and actinide compoundsInorganic Fluorides and Related Compounds