Retention of high-pressure-induced superconducting and non-superconducting phases in solids at ambient

To raise the T_c has been one of the main driving forces in the extensive high temperature superconductivity research for more than three decades. Record T_cs have been set for different compound systems, e.g. 164 K for the cuprates and 287 K for the C-S-H hydrides. Unfortunately, all of these are achieved under pressures, i.e. ~31 GPa for the former and 267 GPa for the latter, posing a serious obstacle for applications. To remove the obstacle, we have investigated means to retain at ambient the high-pressure phases by taking advantage of the energy barriers between different phases in solids through pressure quench at 77 K. We shall report our success in retaining at ambient the following pressure-induced phases: superconducting (sc) phases II at ~5-20 GPa and IV at ~22-62 GPa in non-sc Sb I single crystals; sc phases III at ~2.4-7 GPa and V at ~7-12 GPa in non-sc Bi I single crystals, sc tetragonal FeSe at ~2-7.5 GPa and non-sc hexagonal FeSe above ~8 GPa in sc orthogonal FeSe single crystals; and sc tetragonal Cu-doped FeSe at ~4-6 GPa in non-sc orthogonal Cu-doped FeSe single crystals. The thermal stability of each of these phases has also been determined.