Pressure-induced superconductivity in H2-containing hydride PbH4(H2)2

High pressure structure, stability, metallization, and superconductivity of PbH₄(H₂)₂, a H₂-containing compound combining one of the heaviest elements with the lightest element, are investigated by the first-principles calculations. The metallic character is found over the whole studied pressure range, although PbH₄(H₂)₂ is metastable and easily decompose at low pressure. The decomposition pressure point of 133 GPa is predicted above which PbH₄(H₂)₂ is stable both thermodynamically and dynamically with the C2/m symmetry. Interestedly, all hydrogen atoms pairwise couple into H₂ quasi-molecules and remain this style up to 400 GPa in the C2/m structure. At high-pressure, PbH₄(H₂)₂ tends to form the Pb-H₂ alloy. The superconductivity of T_c firstly rising and then falling is observed in the C2/m PbH₄(H₂)₂. The maximum of T_c is about 107 K at 230 GPa. The softening of intermediate-frequency phonon induced by more inserted H₂ molecules is the main origin of the high T_c. The results obtained represent a significant step toward the understanding of the high pressure behavior of metallic hydrogen and hydrogen-rich materials, which is helpful for obtaining the higher T_c.