Pressure-induced decomposition of solid hydrogen sulfide

Abstract

Solid hydrogen sulfide is well known as a typical molecular crystal but its stability under pressure is still under debate. Particularly, Eremets et al. found the high pressure superconductivity with Tc≈ 190 K in a H2S sample [arXiv: 1412.0460 (2014)] which is associates with the elemental decomposition into H3S [Sci. Rep. 4, 6968 (2014)]. Therefore, on what pressure H2S can decompose and which kind of the products of decomposition urgent need to be solved. In this paper, we have performed an extensive structural study on different stoichiometries HnS with n> 1 under high pressure using ab initio calculations. Our results show that H2S is stable below 50 GPa and decomposes into H3S and sulfur at high pressure, while H3S is stable at least up to 300 GPa. The other hydrogen-rich H4S, H5S, and H6S are unstable in the pressure range from 20 to 300 GPa.