Helium Induced Nitrogen Salt at High Pressure

Abstract

The energy landscape of helium-nitrogen mixtures is explored by ab initio evolutionary searches, which predicted several stable helium-nitrogen compounds in the pressure range from 25 to 100 GPa. In particular, the monoclinic structure of HeN22 consists of neutral He atoms, partially ionic dimers N2δ-, and lantern-like cages N20δ+. The presence of helium not only greatly enhances structural diversity of nitrogen solids, but also tremendously lowers the formation pressure of nitrogen salt. The unique nitrogen framework of (HeN20)δ+N2δ- may be quenchable to ambient pressure even after removing helium. The estimated energy density of N20δ+N2δ- (10.44 kJ/g) is 2.4 times larger than that of trinitrotoluene (TNT), indicating a very promising high-energy-density material.