High-pressure synthesis of ultraincompressible hard rhenium nitride pernitride Re2(N2)N2 stable at ambient conditions

Abstract

Here we report the synthesis of metallic, ultraincompressible (bulk modulus K0 = 428(10) GPa) and very hard (nanoindentation hardness 36.7(8) GPa) rhenium (V) nitride pernitride Re2(N2)N2. While the empirical chemical formula of the compound, ReN2, is the same as for other known transition metals pernitrides, e.g. IrN2, PtN2, PdN2 and OsN2, its crystal chemistry is unique. The known pernitrides of transition metals consist of a metal in the oxidation state +IV and pernitride anions N24-. ReN2 contains both pernitride N24- and discrete N3- anions, which explains its exceptional properties. Moreover, in the original experimental synthesis of Re2(N2)N2 performed in a laser-heated diamond anvil cell via a direct reaction between rhenium and nitrogen at pressures from 40 to 90 GPa we observed that the material was recoverable at ambient conditions. Consequently, we developed a route to scale up its synthesis through a reaction between rhenium and ammonium azide, NH4N3, in a large-volume press at 33 GPa. Our work resulted not only in a discovery of a novel material with unusual crystal chemistry and a set of properties attractive for potential applications, but also demonstrated a feasibility of surmounting conceptions common in material sciences.