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Single-particle chemical analysis reveals organic-rich detonation soot products
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Single-particle chemical analysis reveals organic-rich detonation soot products
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Single-particle chemical analysis reveals organic-rich detonation soot products
Single-particle chemical analysis reveals organic-rich detonation soot products
Journal Article

Single-particle chemical analysis reveals organic-rich detonation soot products

2026
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Overview
The detonation of high explosives produces a wide variety of particulate matter (PM) with distinct properties, not all of which are traditionally studied for chemical composition, formation processes, and forensic applications. We report particle-resolved measurements of Composition B detonation soot using soot particle aerosol mass spectrometry (SP-AMS), identifying carbonaceous species and metals not previously characterized on a single-particle basis. Results are combined with scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS) to enhance source-dependent signatures. Black carbon, including graphitic carbon and detonation nanodiamonds, contributed 50.5-71.4% of PM 2.5 mass, while 22.5-43.4% was non-refractory organic carbon, a previously overlooked component that exhibited a complex and varying composition. Detonations were performed with and without PMMA confinement and under steady and overdriven conditions. Distinct particles enriched with polycyclic aromatic hydrocarbons (PAHs) were observed in experiments utilizing confinement, with quantities dependent on manufacturing method. SEM-EDS validated SP-AMS findings of metals internally mixed with carbonaceous species and extended the particle size range to 100 µm. This work makes detecting non-refractory organics using single-particle techniques more feasible for detonation forensics and understanding high-energy soot formation. While this analysis uses offline sample collection, SP-AMS could be deployed for in-situ measurements of detonation PM 2.5 transported in the atmosphere. The detonation of high explosives produces a wide variety of particulate matter with distinct properties, but studies focusing on all the species produced are scarce. Here, the authors report particle-resolved measurements of Composition B detonation soot using soot particle aerosol mass spectrometry, identifying carbonaceous species and metals not previously characterized on a single-particle basis.