Phase diagram and superconductivity of compressed zirconium hydrides.

It is known that pressure can be applied to fundamentally alter the bonding patterns between the chemical elements. By employing an unbiased structure search method based on a particle swarm optimization (PSO) methodology, the phase diagram and crystal structures of Zr-H compounds are systematically investigated at a high pressure up to 150 GPa. Interestingly, some unexpectedly stable compounds with unusual chemical and physical properties are predicted to be formed, for example, four stable and metallic species with stoichiometries of ZrH, ZrH, ZrH, and ZrH are identified for the first time. It is interesting to note that Cmc2-ZrH adopts intriguing structures with H units. Surprisingly, it is found that Cmcm-ZrH is superconducting with T as high as 10.6 K. Our study opens a novel avenue for designing superconducting Zr-H compounds by applying pressure.