Superconductive Sodalite-like Clathrate Hydrides MXH12 with Critical Temperatures of near 300 K under Pressures

Abstract

We designed and investigated a series of ternary hydride compounds MXH12 crystallizing in the cubic Pm3m structure as potential rare-earth and alkaline-earth superconductors. First-principles calculations were performed on these prospective superconductors across the pressure range of 50-200 GPa, revealing their electronic band structures, phonon dispersions, electron-phonon interactions, and superconducting properties. Several compounds were identified as dynamically stable, with ScYbH12 and LuYbH12 remaining stable at 70 GPa, and ScLuH12 at 100 GPa. Notably, Eliashberg theory and electron-phonon coupling calculations predict CaLuH12 to exhibit a remarkable Tc of up to 294 K at 180 GPa. These findings unveil ternary hydrides as a promising class of high-temperature superconductors and provide insights for achieving superconductivity at lower or ambient pressures through material design and exploration.