Energetic Di-and trinitromethylpyridines: Synthesis and characterization

Yiying Zhang; Xiaoyu Sun; Shannan Yu; Lingxiang Bao; Chenghui Sun; Siping Pang

doi:10.3390/molecules23010002

Energetic Di-and trinitromethylpyridines: Synthesis and characterization

Yiying Zhang, Xiaoyu Sun, Shannan Yu, Lingxiang Bao, Chenghui Sun^*, Siping Pang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

3 Citations (Scopus)

Abstract

Pyridine derivatives based on the addition of trinitromethyl functional groups were synthesized by the reaction of N₂O₄ with the corresponding pyridinecarboxaldoximes, then they were converted into dinitromethylide hydrazinium salts. These energetic compounds were fully characterized by IR and NMR spectroscopy, elemental analysis, differential scanning calorimetry (DSC), and X-ray crystallography. These pyridine derivatives have good densities, positive enthalpies of formation, and acceptable sensitivity values. Theoretical calculations carried out using Gaussian 03 and EXPLO5 programs demonstrated good to excellent detonation velocities and pressures. Each of these compounds is superior in performance to TNT, while 2,6-bis(trinitromethyl)pyridine (D = 8700 m·s⁻¹, P = 33.2 GPa) shows comparable detonation performance to that of RDX, but its thermal stability is too low, making it inferior to RDX.

Original language	English
Article number	2
Journal	Molecules
Volume	23
Issue number	1
DOIs	https://doi.org/10.3390/molecules23010002
Publication status	Published - 2018

Keywords

Detonation properties
Dinitromethyl
Energetic materials
Pyridine
Trinitromethyl

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10.3390/molecules23010002

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title = "Energetic Di-and trinitromethylpyridines: Synthesis and characterization",

abstract = "Pyridine derivatives based on the addition of trinitromethyl functional groups were synthesized by the reaction of N2O4 with the corresponding pyridinecarboxaldoximes, then they were converted into dinitromethylide hydrazinium salts. These energetic compounds were fully characterized by IR and NMR spectroscopy, elemental analysis, differential scanning calorimetry (DSC), and X-ray crystallography. These pyridine derivatives have good densities, positive enthalpies of formation, and acceptable sensitivity values. Theoretical calculations carried out using Gaussian 03 and EXPLO5 programs demonstrated good to excellent detonation velocities and pressures. Each of these compounds is superior in performance to TNT, while 2,6-bis(trinitromethyl)pyridine (D = 8700 m·s−1, P = 33.2 GPa) shows comparable detonation performance to that of RDX, but its thermal stability is too low, making it inferior to RDX.",

keywords = "Detonation properties, Dinitromethyl, Energetic materials, Pyridine, Trinitromethyl",

author = "Yiying Zhang and Xiaoyu Sun and Shannan Yu and Lingxiang Bao and Chenghui Sun and Siping Pang",

note = "Publisher Copyright: {\textcopyright} 2017 by the authors.",

year = "2018",

doi = "10.3390/molecules23010002",

language = "English",

volume = "23",

journal = "Molecules",

issn = "1420-3049",

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TY - JOUR

T1 - Energetic Di-and trinitromethylpyridines

T2 - Synthesis and characterization

AU - Zhang, Yiying

AU - Sun, Xiaoyu

AU - Yu, Shannan

AU - Bao, Lingxiang

AU - Sun, Chenghui

AU - Pang, Siping

PY - 2018

Y1 - 2018

N2 - Pyridine derivatives based on the addition of trinitromethyl functional groups were synthesized by the reaction of N2O4 with the corresponding pyridinecarboxaldoximes, then they were converted into dinitromethylide hydrazinium salts. These energetic compounds were fully characterized by IR and NMR spectroscopy, elemental analysis, differential scanning calorimetry (DSC), and X-ray crystallography. These pyridine derivatives have good densities, positive enthalpies of formation, and acceptable sensitivity values. Theoretical calculations carried out using Gaussian 03 and EXPLO5 programs demonstrated good to excellent detonation velocities and pressures. Each of these compounds is superior in performance to TNT, while 2,6-bis(trinitromethyl)pyridine (D = 8700 m·s−1, P = 33.2 GPa) shows comparable detonation performance to that of RDX, but its thermal stability is too low, making it inferior to RDX.

AB - Pyridine derivatives based on the addition of trinitromethyl functional groups were synthesized by the reaction of N2O4 with the corresponding pyridinecarboxaldoximes, then they were converted into dinitromethylide hydrazinium salts. These energetic compounds were fully characterized by IR and NMR spectroscopy, elemental analysis, differential scanning calorimetry (DSC), and X-ray crystallography. These pyridine derivatives have good densities, positive enthalpies of formation, and acceptable sensitivity values. Theoretical calculations carried out using Gaussian 03 and EXPLO5 programs demonstrated good to excellent detonation velocities and pressures. Each of these compounds is superior in performance to TNT, while 2,6-bis(trinitromethyl)pyridine (D = 8700 m·s−1, P = 33.2 GPa) shows comparable detonation performance to that of RDX, but its thermal stability is too low, making it inferior to RDX.

KW - Detonation properties

KW - Dinitromethyl

KW - Energetic materials

KW - Pyridine

KW - Trinitromethyl

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U2 - 10.3390/molecules23010002

DO - 10.3390/molecules23010002

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SN - 1420-3049

VL - 23

JO - Molecules

JF - Molecules

IS - 1

M1 - 2

ER -

Energetic Di-and trinitromethylpyridines: Synthesis and characterization

Abstract

Keywords

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