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Hydrogen Pentagraphenelike Structure Stabilized by Hafnium: A High-Temperature Conventional Superconductor

Hui Xie, Yansun Yao, Xiaolei Feng, Defang Duan, Hao Song, Zihan Zhang, Shuqing Jiang, Simon A. T. Redfern, Vladimir Z. Kresin, Chris J. Pickard, Tian Cui

2020Physical Review Letters159 citationsDOIOpen Access PDF

Abstract

The recent discovery of H_{3}S and LaH_{10} superconductors with record high superconducting transition temperatures T_{c} at high pressure has fueled the search for room-temperature superconductivity in the compressed superhydrides. Here we introduce a new class of high T_{c} hydrides with a novel structure and unusual properties. We predict the existence of an unprecedented hexagonal HfH_{10}, with remarkably high value of T_{c} (around 213-234 K) at 250 GPa. As concerns the novel structure, the H ions in HfH_{10} are arranged in clusters to form a planar "pentagraphenelike" sublattice. The layered arrangement of these planar units is entirely different from the covalent sixfold cubic structure in H_{3}S and clathratelike structure in LaH_{10}. The Hf atom acts as a precompressor and electron donor to the hydrogen sublattice. This pentagraphenelike H_{10} structure is also found in ZrH_{10}, ScH_{10}, and LuH_{10} at high pressure, each material showing a high T_{c} ranging from 134 to 220 K. Our study of dense superhydrides with pentagraphenelike layered structures opens the door to the exploration of a new class of high T_{c} superconductors.

Topics & Concepts

HafniumMaterials scienceHydrogenSuperconductivityHigh-temperature superconductivityCondensed matter physicsRoom-temperature superconductorEngineering physicsMetallurgyChemistryPhysicsZirconiumOrganic chemistryHigh-pressure geophysics and materialsSuperconductivity in MgB2 and AlloysHydrogen Storage and Materials
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