High-Tc superconducting hydrides formed by LaH24 and YH24 cage structures as basic blocks

Abstract

Based on recent studies regarding high-temperature (high-Tc) La-Y ternary hydrides (e.g., P1-La2YH12, Pm3m-LaYH12, and Pm3m-(La,Y)H10 with a maximum Tc 253 K), we examined the phase and structural stabilities of the (LaH6)(YH6)y series as high-Tc ternary hydride compositions using a genetic algorithm and ab initio calculations. Our evaluation showed that the Pm3m-LaYH12 reported in the previous study was unstable during decomposition into R3c-LaH6 + Im3m-YH6. We also discovered new crystal structures, namely Cmmm-LaYH12 (y=1), R3c-LaYH12 (y=1), Cmmm-LaY3H24 (y=3), and R3-LaY3H24 (y=3), showing stability against such decomposition. While R3c (y=1) and R3 (y=3) did not exhibit superconductivity owing to the extremely low density of states at the Fermi level, Cmmm phases exhibited a Tc of approximately 140~K at around 200~GPa owing to the extremely high electron--phonon coupling constant (λ = 1.876 for LaYH12). By the twice longer stacking for Cmmm-LaY3H24, the coupling constant increased owing to the chemical pressure of Y, leading to a slightly increased Tc.