High-Temperature Superconductivity in the Ti--H System at High Pressures

Abstract

Search for stable high-pressure compounds in the Ti--H system reveals the existence of titanium hydrides with new stoichiometries, including Ibam-Ti2H5, I4/m-Ti5H13, I4-Ti5H14, Fddd-TiH4, Immm-Ti2H13, P1-TiH12, and C2/m-TiH22. Our calculations predict I4/mmm → R3m and I4/mmm → Cmma transitions in TiH and TiH2, respectively. Phonons and the electron--phonon coupling of all searched titanium hydrides are analyzed at high pressure. It is found that Immm-Ti2H13 rather than the highest hydrogen content C2/m-TiH22, exhibits the highest superconducting critical temperature Tc. The estimated Tc of Immm-Ti2H13 and C2/m-TiH22 are respectively 127.4--149.4 K (μ*=0.1-0.15) at 350 GPa and 91.3--110.2 K at 250 GPa by numerically solving the Eliashberg equations. One of the effects of pressure on Tc can be attributed to the softening and hardening of phonons with increasing pressure.