Small Deviations in Geometries Affect Detonation Velocities and Pressures of Nitroaromatic Molecules

Small Deviations in Geometries Affect Detonation Velocities and Pressures of Nitroaromatic Molecules

Understanding the factors that affect the detonation performance of high-energy molecules (HEMs) is crucial for the design of novel explosives and fuels with desirable characteristics. While molecular factors, such as the presence of specific functional groups that give organic molecules explosive p...

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Bibliographic Details
Main Authors: Danijela S. Kretić, Marija I. Maslarević, Dušan Ž. Veljković
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Organics
Subjects:
crystal structures
high-energy material
Cambridge Structural Database
detonation velocity
detonation pressure
Online Access:https://www.mdpi.com/2673-401X/6/2/17
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Summary:Understanding the factors that affect the detonation performance of high-energy molecules (HEMs) is crucial for the design of novel explosives and fuels with desirable characteristics. While molecular factors, such as the presence of specific functional groups that give organic molecules explosive properties, are key determinants of detonation characteristics, other factors like the geometry of molecules in crystal structures can also affect the high-energy properties of materials. Although it is known that slight deviations in the crystal structure geometry affect the sensitivity of nitroaromatic explosives, the influence of these variations on detonation performance remains unknown. In this study, we extracted different crystal structures of the same high-energy nitroaromatic molecules from the Cambridge Structural Database and calculated their detonation velocities and pressures using the Kamlet–Jacobs equations. Results indicated that different geometries of the same crystal structure can lead to non-negligible differences in detonation velocities and pressures. In the case of the 2,4,6-triamino-1,3,5-trinitrobenzene molecule, discrepancies in detonation pressures among different crystal structures were calculated to be 7.68%. Analysis of geometrical arrangements showed that these differences are mainly the consequence of diverse non-covalent bonding patterns that affect crystal densities.
ISSN:2673-401X

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