From mono-rings to bridged bi-rings to caged bi-rings: a promising design strategy for all-nitrogen high-energy-density materialsN10andN12

Qing Lang, Qi Sun, Yuangang Xu, Pengcheng Wang, Qiuhan Lin, Ming Lu*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

9 Citations (Scopus)

Abstract

The research of all-nitrogen compounds has always been a hot topic in nitrogen chemistry and high-energy-density material communities. This research mainly focuses on acyclic and monocyclic all-nitrogen derivatives, while the bicyclic systems of all-nitrogen materials have been rarely investigated. In this study, four bicyclic all-nitrogen derivatives,vizbridgedN10andN12, and cagedN10andN12, are presented. Caged-N10and caged-N12exhibit much higher density (d: 1.84 and 1.89 g cm−3) and higher heats of formation (Hf: 15.19 and 16.41 kJ g−1) than bridged-N10and bridged-N12(d: 1.71 and 1.72 g cm−3;Hf: 7.64 and 10.24 kJ g−1), respectively. All these materials exhibit remarkable detonation performance (D: 9.87-12.29 km s−1;P: 39.41-72.26 GPa) and excellent specific impulses (Isp: 325.00-434.60 s), which is superior to the state-of-artCL-20(D: 9.40 km s−1;P: 44.60 GPa;Isp: 272.61 s), endowing these materials with great potential as promising explosives and propellants. In addition, molecular electrostatic potentials, frontier molecular orbitals, and noncovalent interactions were studied to investigate their structure-property relationship.

Original languageEnglish
Pages (from-to)6379-6385
Number of pages7
JournalNew Journal of Chemistry
Volume45
Issue number14
DOIs
Publication statusPublished - 14 Apr 2021
Externally publishedYes

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