The stability and decomposition mechanism of the catenated nitrogen compounds

Xiuxiu Zhao; Cai Qi; Rubo Zhang; Shaowen Zhang; Shenghua Li; Siping Pang

doi:10.1007/s00894-015-2766-2

The stability and decomposition mechanism of the catenated nitrogen compounds

Xiuxiu Zhao, Cai Qi, Rubo Zhang, Shaowen Zhang, Shenghua Li, Siping Pang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Through theoretical calculation and experimental data, the decomposition mechanism of the N,N’-azo azole poly-nitrogen compounds were obtained. The compounds with the decomposition caused by the rupture of the -N-N=N-N- bridge are more stable than the ones with the ring-opening decomposition mechanisms. The catenated -N-N=N-N- bridge can strengthen the stability of the nitrogen chain. Preventing the hybridization change of the N atom where the ring-opening reaction occurs is essential for the nitrogen chain elongation on the ring system. Moreover, the introduction of energetic substituents like nitro group can further improve the performances of poly-nitrogen compounds; and such a modification should be based on a stable poly-nitrogen backbone. [Figure not available: see fulltext.]

Original language	English
Article number	223
Journal	Journal of Molecular Modeling
Volume	21
Issue number	9
DOIs	https://doi.org/10.1007/s00894-015-2766-2
Publication status	Published - 11 Sept 2015

Keywords

Decomposition mechanism
Nitrogen chains
Poly-nitrogen compounds
Stability

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10.1007/s00894-015-2766-2

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title = "The stability and decomposition mechanism of the catenated nitrogen compounds",

abstract = "Through theoretical calculation and experimental data, the decomposition mechanism of the N,N{\textquoteright}-azo azole poly-nitrogen compounds were obtained. The compounds with the decomposition caused by the rupture of the -N-N=N-N- bridge are more stable than the ones with the ring-opening decomposition mechanisms. The catenated -N-N=N-N- bridge can strengthen the stability of the nitrogen chain. Preventing the hybridization change of the N atom where the ring-opening reaction occurs is essential for the nitrogen chain elongation on the ring system. Moreover, the introduction of energetic substituents like nitro group can further improve the performances of poly-nitrogen compounds; and such a modification should be based on a stable poly-nitrogen backbone. [Figure not available: see fulltext.]",

keywords = "Decomposition mechanism, Nitrogen chains, Poly-nitrogen compounds, Stability",

author = "Xiuxiu Zhao and Cai Qi and Rubo Zhang and Shaowen Zhang and Shenghua Li and Siping Pang",

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doi = "10.1007/s00894-015-2766-2",

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T1 - The stability and decomposition mechanism of the catenated nitrogen compounds

AU - Zhao, Xiuxiu

AU - Qi, Cai

AU - Zhang, Rubo

AU - Zhang, Shaowen

AU - Li, Shenghua

AU - Pang, Siping

PY - 2015/9/11

Y1 - 2015/9/11

N2 - Through theoretical calculation and experimental data, the decomposition mechanism of the N,N’-azo azole poly-nitrogen compounds were obtained. The compounds with the decomposition caused by the rupture of the -N-N=N-N- bridge are more stable than the ones with the ring-opening decomposition mechanisms. The catenated -N-N=N-N- bridge can strengthen the stability of the nitrogen chain. Preventing the hybridization change of the N atom where the ring-opening reaction occurs is essential for the nitrogen chain elongation on the ring system. Moreover, the introduction of energetic substituents like nitro group can further improve the performances of poly-nitrogen compounds; and such a modification should be based on a stable poly-nitrogen backbone. [Figure not available: see fulltext.]

AB - Through theoretical calculation and experimental data, the decomposition mechanism of the N,N’-azo azole poly-nitrogen compounds were obtained. The compounds with the decomposition caused by the rupture of the -N-N=N-N- bridge are more stable than the ones with the ring-opening decomposition mechanisms. The catenated -N-N=N-N- bridge can strengthen the stability of the nitrogen chain. Preventing the hybridization change of the N atom where the ring-opening reaction occurs is essential for the nitrogen chain elongation on the ring system. Moreover, the introduction of energetic substituents like nitro group can further improve the performances of poly-nitrogen compounds; and such a modification should be based on a stable poly-nitrogen backbone. [Figure not available: see fulltext.]

KW - Decomposition mechanism

KW - Nitrogen chains

KW - Poly-nitrogen compounds

KW - Stability

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JO - Journal of Molecular Modeling

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The stability and decomposition mechanism of the catenated nitrogen compounds

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