High-pressure synthesis of K4N6 compound entirely composed of aromatic hexazine [N6]4- anion
Abstract
The synthesis of hexazine N6 ring is another milestone in nitrogen chemistry after that of aromatic [N5]- anion. However, due to the diversity of carried charges, realizing compounds entirely composed of aromatic hexazine N6 ring potentially with high-stability is a challenge. The first reported hexazine N6 ring is [N6]2- anion in K2N6 [Nat. Chem. 14, 794 (2022)] that does not adhere to H\''uckel's rule, and subsequently, the aromatic hexazine [N6]4- anion mixed with [N5]- anion and N2 dimers is realized in the complex compound K9N56 [Nat. Chem. 15, 641 (2023)], where 5.36\% of N atoms form aromatic N6 ring. Here, we theoretically predict that all N atoms form aromatic hexazine [N6]4- anion in K4N6, which becomes stable at 60 GPa and can stably exist up to 600 K at 0 GPa. Following this approach, based on the diamond anvil cell, K4N6 composed of 100\% aromatic hexazine [N6]4- anion is synthesized at 45 GPa after laser-heating and identified by synchrotron X-ray diffraction and Raman spectroscopy. Our results bring us closer to achieving aromatic N6 rings at ambient condition.
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