Analysis of anionic post-blast residues of low explosives from soil samples of forensic interest

The growing threats and terrorist activities in recent years have urged the need for rapid and accurate forensic investigation on post-blast samples. The analysis of explosives and their degradation products in soils are important to enable forensic scientist to identify the explosives used in the b...

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Bibliographic Details
Main Authors: Ahmad, Umi Kalthom, Ong, Shin Tze, Ghazali, Muhammad Fauzi, Yew, Chong Hooi, Abdullah, Mohd. Koey
Format: Article
Published: Universiti Kebangsaan Malaysia 2011
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Online Access:http://eprints.utm.my/id/eprint/44738/
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Institution: Universiti Teknologi Malaysia
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Summary:The growing threats and terrorist activities in recent years have urged the need for rapid and accurate forensic investigation on post-blast samples. The analysis of explosives and their degradation products in soils are important to enable forensic scientist to identify the explosives used in the bombing and establish possible links to their likely origin. Anions of interest for post-blast identification of low explosives were detected and identified using ion chromatography (IC). IC separations of five anions (Cl - , NO2 - , NO3 - , SO4 2- , SCN- ) employed a Metrosep Anion Dual 2 column with carbonate eluent. The anions were separated within 17 minutes. Sampling of post blast residues was carried out in Rompin, Pahang. The post-blast explosive residues were extracted from soil samples collected at the seat of three simulated explosion points. The homemade explosives comprised of black powder of various amounts (100 g, 150 g and 200 g) packed in small plastic sauce bottles. In black powder standard, three anions (Cl- , NO3 - , SO4 2- ) were identified. However, low amounts of nitrite (NO2 - ) were found present in post-blast soil samples. The amounts of anions were generally found to be decreased with decreasing amount of black powder explosive used. The anions analysis was indicative that nitrates were being used as one of the black powder explosive ingredients.