Issue 3, 2022

High-pressure phases of a Mn–N system

Abstract

Highly compressed extended states of light elemental solids have emerged recently as a novel group of energetic materials. The application of these materials is seriously limited by the energy-safety contradiction, because the material with high energy density is highly metastable and can hardly be recovered under ambient conditions. Recently, it has been found that high-energy density transition metal polynitrides could be synthesized at ∼100 GPa and recovered at ∼20 GPa. Inspired by these findings, we have studied a high-pressure Mn–N system from the aspects of structure, stability, phase transition, energy density and electronic structure theoretically for the first time. The results reveal that MnN4_P[1 with combining macron] consisting of [N4]2− is thermodynamically stable at 36.9–100 GPa, dynamically stable at 0 GPa and has a noticeably high volumetric energy density of 15.71 kJ cm−3. Upon decompression, this structure will transform to MnN4_C2/m with the transition barrier declining sharply at 5–10 GPa due to the switching of transition pathways. Hence, we propose MnN4_P[1 with combining macron] as a potential energetic material that is synthesizable above 40 GPa and recoverable until 10 GPa.

Graphical abstract: High-pressure phases of a Mn–N system

Supplementary files

Article information

Article type
Paper
Submitted
24 Sep 2021
Accepted
13 Dec 2021
First published
16 Dec 2021

Phys. Chem. Chem. Phys., 2022,24, 1830-1839

High-pressure phases of a Mn–N system

F. Jiao, X. Huang, C. Zhang and W. Xie, Phys. Chem. Chem. Phys., 2022, 24, 1830 DOI: 10.1039/D1CP04386B

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