Journal ArticleDOI
An ab initio molecular dynamics study of thermal decomposition of 3,6-di(azido)-1,2,4,5-tetrazine
Qiong Wu,Weihua Zhu,Heming Xiao +2 more
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TLDR
The authors' simulations suggest a new decomposition mechanism for the organic polyazido initial explosive at the atomistic level that is inhibited due to low mobility, long distance from each other, and strong carbon-nitrogen bonds.Abstract:
Ab initio molecular dynamics simulations were performed to study the thermal decomposition of isolated and crystal 3,6-di(azido)-1,2,4,5-tetrazine (DiAT). During unimolecular decomposition, the three different initiation mechanisms were observed to be N–N2 cleavage, ring opening, and isomerization, respectively. The preferential initial decomposition step is the homolysis of the N–N2 bond in the azido group. The release mechanisms of nitrogen gas are found to be very different in the early and later decomposition stages of crystal DiAT. In the early decomposition, DiAT decomposes very fast and drastically without forming any stable long-chains or heterocyclic clusters, and most of the nitrogen gases are released through rapid rupture of nitrogen–nitrogen and carbon–nitrogen bonds. But in the later decomposition stage, the release of nitrogen gas is inhibited due to low mobility, long distance from each other, and strong carbon–nitrogen bonds. To overcome the obstacles, the nitrogen gases are released through slow formation and disintegration of polycyclic networks. Our simulations suggest a new decomposition mechanism for the organic polyazido initial explosive at the atomistic level.read more
Citations
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Thermal and electrical conductivity of iron at Earth's core conditions
TL;DR: The authors used density functional theory to compute the thermal and electrical conductivities in liquid iron mixtures at core conditions from first principles, and found that the conductivities were two to three times higher than estimates in current use.
Journal ArticleDOI
Thermal decomposition of isolated and crystal 4,10-dinitro-2,6,8,12-tetraoxa-4,10-diazaisowurtzitane according to ab initio molecular dynamics simulations
Dong Xiang,Weihua Zhu +1 more
TL;DR: In this article, the authors performed ab initio molecular dynamics simulations to study the initiation chemical reaction and subsequent decomposition mechanism of a 4,10dinitro-2,6,8,12-tetraoxa-4,10-diazaisowurtzitane (TEX) crystal at 2160 K.
Journal ArticleDOI
Thermal decomposition mechanisms of the energetic benzotrifuroxan:1,3,3‐trinitroazetidine cocrystal using ab initio molecular dynamics simulations
Huimin Xie,Weihua Zhu +1 more
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Thermal decomposition mechanisms of energetic ionic crystal dihydrazinium 3,3′-dinitro-5,5′-bis-1,2,4-triazole-1,1-diolate: An ab initio molecular dynamics study
TL;DR: In this paper, the authors investigated the initiation mechanisms and subsequent decomposition of energetic ionic crystal dihydrazinium 3,3′-dinitro-5,5′-bis-1,2,4-triazole 1,1-diolate (DBTD) at pure high temperatures (3842 K and 2000 K) and at high temperatures coupled with detonation pressure (34.2 GPa) by ab initio molecular dynamics simulations.
Journal ArticleDOI
Elucidating the Coupling Mechanisms of Rapid Intramolecular Vibrational Energy Redistribution in Nitromethane: Ab Initio Molecular Dynamics Simulation.
TL;DR: From the ultrafast vibrational transfer made by Fourier transformation of the time-dependent normal-mode kinetic energy, it can be captured that symmetry of the normal-modes plays an important role in the anharmonic coupling between the vibrational modes.
References
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Thermal and electrical conductivity of iron at Earth/'s core conditions
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