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« Previous AbstractDetection of Nonvolatile Inorganic Oxidizer-Based Explosives from Wipe Collections by Infrared Thermal Desorption-Direct Analysis in Real Time Mass Spectrometry    Next AbstractThe natural chlorine cycle - Formation of the carcinogenic and greenhouse gas compound chloroform in drinking water reservoirs »

Anal Chem


Title:Forensic Analysis and Differentiation of Black Powder and Black Powder Substitute Chemical Signatures by Infrared Thermal Desorption-DART-MS
Author(s):Forbes TP; Verkouteren JR;
Address:"Materials Measurement Science Division , National Institute of Standards and Technology , Gaithersburg , Maryland 20899 , United States"
Journal Title:Anal Chem
Year:2019
Volume:20181214
Issue:1
Page Number:1089 - 1097
DOI: 10.1021/acs.analchem.8b04624
ISSN/ISBN:1520-6882 (Electronic) 0003-2700 (Print) 0003-2700 (Linking)
Abstract:"The trace detection and forensic analysis of black powders and black powder substitutes, directly from wipe-based sample collections, was demonstrated using infrared thermal desorption (IRTD) coupled with direct analysis in real time mass spectrometry (DART-MS). Discrete 15 s heating ramps were generated, creating a thermal desorption profile that desorbed more volatile species (e.g., organic and semivolatile inorganic compounds) at lower temperatures (250-400 degrees C) and nonvolatile inorganic oxidizers at high temperatures (450-550 degrees C). Common inorganic components of black powders (e.g., sulfur and potassium nitrate) as well as the alternative and additional organic and inorganic components of common black powder substitutes (e.g., dicyandiamide, ascorbic acid, sodium benzoate, guanidine nitrate, and potassium perchlorate) were detected from polytetrafluoroethylene-coated fiberglass collection wipes with no additional sample preparation. IRTD-DART-MS enabled the direct detection of intact inorganic salt species as nitrate adducts (e.g., [KClO(4)+NO(3)](-)) and larger clusters. The larger ion distributions generated by these complex mixtures were differentiated using principal component analysis (PCA) of the mass spectra generated at two points during the thermal desorption profile (low and high temperatures), as well as at high in-source collision-induced dissociation. The PCA framework generated by the analysis of the two black powders and five black powder substitutes was used to classify samples collected from a commercial firecracker containing both flash powder and black powder. The coupling of IRTD-DART-MS and multivariate statistics demonstrated the powerful utility for detection and discrimination of trace fuel-oxidizer mixtures"
Keywords:"Ascorbic Acid/analysis *Forensic Sciences Guanidine/analysis Guanidines/analysis Humans Mass Spectrometry/instrumentation Nitrates/analysis Perchlorates/analysis Potassium Compounds/analysis Powders/*chemistry Sodium Benzoate/analysis Spectrophotometry, I;"
Notes:"MedlineForbes, Thomas P Verkouteren, Jennifer R eng 9999-NIST/ImNIST/Intramural NIST DOC/ 2018/12/06 Anal Chem. 2019 Jan 2; 91(1):1089-1097. doi: 10.1021/acs.analchem.8b04624. Epub 2018 Dec 14"

 
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