Superconducting H 7 chain in gallium hydrides at high pressure.

Pressure-stabilized hydrides have potential as an outstanding reservoir for high-temperature ( T c ) superconductors. We undertook a systematic study of crystal structures and superconducting properties of gallium hydrides using an advanced structure-search method together with first-principles calculations. We identified an unconventional stoichiometric GaH 7 gallium hydride that is thermodynamically stable at pressures above 247 GPa. Interestingly, the H atoms are clustered to form a unique H 7 chain intercalating the Ga framework. Further calculations show a high estimated T c above 100 K at 200-300 GPa for GaH 7 , closely related to the strong coupling between electrons of Ga and H atoms, and phonon vibrations of H 7 chains. Our work provides an example of exploration for diverse superconducting hydrogen motifs under high pressure, and may stimulate further experimental syntheses.