Exotic stable cesium polynitrides at high pressure

New polynitrides containing metastable forms of nitrogen are actively investigated as potential high-energy-density materials. Using a structure search method based on the CALYPSO methodology, we investigated the stable stoichiometries and structures of cesium polynitrides at high pressures. Along with the CsN(3), we identified five new stoichiometric compounds (Cs(3)N, Cs(2)N, CsN, CsN(2), and CsN(5)) with interesting structures that may be experimentally synthesizable at modest pressures (i.e., less than 50 GPa). Nitrogen species in the predicted structures have various structural forms ranging from single atom (N) to highly endothermic molecules (N(2), N(3), N(4), N(5), N(6)) and chains (N(∞)). Polymeric chains of nitrogen were found in the high-pressure C2/c phase of CsN(2). This structure contains a substantially high content of single N-N bonds that exceeds the previously known nitrogen chains in pure forms, and also exhibit metastability at ambient conditions. We also identified a very interesting CsN crystal that contains novel N(4)(4−) anion. To our best knowledge, this is the first time a charged N(4) species being reported. Results of the present study suggest that it is possible to obtain energetic polynitrogens in main-group nitrides under high pressure.