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Journal Article

Citation

Zapata F, Garcia-Ruiz C. Forensic Sci. Int. 2017; 275: 57-64.

Affiliation

Department of Analytical Chemistry, Physical Chemistry and Chemical Engineering, University of Alcalá, Madrid, Spain; University Institute of Research in Police Sciences (IUICP), University of Alcalá, Madrid, Spain. Electronic address: carmen.gruiz@uah.es.

Copyright

(Copyright © 2017, Elsevier Publishing)

DOI

10.1016/j.forsciint.2017.02.032

PMID

28324768

Abstract

Post-explosion scenes offer such chaos and destruction that evidence recovery and detection of post-blast residues from the explosive in the surrounding materials is highly challenging and difficult. The suitability of materials to retain explosives residues and their subsequent analysis has been scarcely investigated. Particularly, the use of explosive mixtures containing inorganic oxidizing salts to make improvised explosive devices (IEDs) is a current security concern due to their wide availability and lax control. In this work, a wide variety of materials such as glass, steel, plywood, plastic bag, brick, cardboard or cotton subjected to open-air explosions were examined using confocal Raman microscopy, aiming to detect the inorganic oxidizing salts contained in explosives as black powder, chloratite, dynamite, ammonium nitrate fuel oil and ammonal. Post-blast residues were detected through microscopic examination of materials surfaces. In general, the more homogeneous and smoother the surface was, the less difficulties and better results in terms of identification were obtained. However, those highly irregular surfaces were the most unsuitable collectors for the posterior identification of explosive traces by Raman microscopy. The findings, difficulties and some recommendations related to the identification of post-blast particles in the different materials studied are thoroughly discussed.

Copyright © 2017 Elsevier B.V. All rights reserved.


Language: en

Keywords

ANFO; Black powder; Dynamite; Material surfaces; Post-blast residues; Raman microscopy

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