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First-principles calculations on structural stability and electronic properties of nitrogen-doped lutetium hydrides under pressure

Xiaokuan Hao, Xudong Wei, Hanyu Liu, Xiaoxu Song, Rongxin Sun, Guoying Gao, Yongjun Tian

2023Physical Review Research13 citationsDOIOpen Access PDF

Abstract

Since the discovery of superconductivity, the realization of room-temperature superconductivity has been the long dream of mankind. Recently, it has been reported that nitrogen-doped lutetium hydride has room-temperature superconductivity at near-ambient conditions. However, there is no solid evidence of such tantalizing superconductivity in nitrogen-doped lutetium hydride synthesized by follow-up experiments. The compositions and crystal structures of the nitrogen-doped lutetium hydride are still unclear. Therefore, we here systematically study the structural stability and electronic properties of $Fm\overline{3}m \mathrm{Lu}{\mathrm{H}}_{3}$ and N-doped $\mathit{Fm}\overline{3}m \mathrm{Lu}{\mathrm{H}}_{3}$, such as 1, 2, 3, 4, and 8% N, by first-principles calculations. Our further electronic properties calculations show that all the simulated Lu-N-H ternary compounds are metallic, except for a semiconducting phase of ${\mathrm{Lu}}_{4}{\mathrm{H}}_{11}\mathrm{N} (\mathrm{Lu}{\mathrm{H}}_{2.75}{\mathrm{N}}_{0.25})$. Remarkably, the contribution of the H atoms to the electronic density of states at the Fermi level could be tuned by the increasing N concentration. Electron-phonon coupling calculations also show that both $\mathit{Fm}\overline{3}m \mathrm{Lu}{\mathrm{H}}_{3}$ and $\mathit{Pm}\overline{3}m {\mathrm{Lu}}_{4}{\mathrm{H}}_{11}\mathrm{N}$ are superconducting with critical temperature ${T}_{c}$'s of 23 and 32 K at 24 and 60 GPa, respectively. Our current results suggest that $\mathrm{Lu}{\mathrm{H}}_{3}$ and N-doped $\mathrm{Lu}{\mathrm{H}}_{3}$ could be potential superconductors only at high pressure, while the estimated ${T}_{c}$ values are much lower than room temperature.

Topics & Concepts

LutetiumSuperconductivityHydrideCrystallographyElectronic structurePhysicsDopingMaterials scienceCondensed matter physicsMetalChemistryYttriumOxideMetallurgyRare-earth and actinide compoundsSuperconductivity in MgB2 and AlloysInorganic Chemistry and Materials