Abstract
Because of its high energy, aromaticity, and carbon- and hydrogen-free structure, the cyclo-pentazolate anion (c-N5-) has attracted increased attention as a potential polynitrogen structural unit for the research of next-generation high energy density materials. However, the poor thermal stability of c-N5--based compounds has become an important factor restricting their development. Here, we show that a hydrogen-bonded organic framework (HOF) self-assembles with and stabilizes c-N5-, with c-N5- situated in the pores of the resulting framework through the formation of symmetrical c-N5- hydrogen bonds as the main stabilizing factors. These factors result in an onset decomposition temperature of 153 °C for the c-N5-@HOF portion, which exceeds the thermal stabilities generally observed for c-N5--based derivatives of below 135 °C. We envisage that further c-N5--based materials with enhanced stabilities and better performance will be developed in the future.
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