Chemical attribution of the homemade explosive ETN - Part II: Isotope ratio mass spectrometry analysis of ETN and its precursors

Autor:	Arian C. van Asten, Jos van den Elshout, Taylor Busby, James L. Smith, Lindsay McLennan, Antoine E. D. M. van der Heijden, Annemieke Hulsbergen, Karlijn D.B. Bezemer, Eva de Rijke, Jimmie C. Oxley, Peter J. Schoenmakers, Jorien Schoorl, Rosanne Hessels, Alexander Yevdokimov, Mattijs Koeberg
Přispěvatelé:	Supramolecular Separations (HIMS, FNWI), IBED (FNWI)
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	Isotope 010401 analytical chemistry Radiochemistry chemistry.chemical_element Erythritol 01 natural sciences Nitrogen Isotopes of oxygen 0104 chemical sciences Pathology and Forensic Medicine 03 medical and health sciences chemistry.chemical_compound 0302 clinical medicine chemistry Nitric acid Erythritol tetranitrate 030216 legal & forensic medicine Isotope-ratio mass spectrometry Law Carbon
Zdroj:	Forensic Science International, 313:110344. Elsevier
ISSN:	0379-0738
Popis:	In this follow-up study the collaboration between two research groups from the USA and the Netherlands was continued to expand the framework of chemical attribution for the homemade explosive erythritol tetranitrate (ETN). Isotope ratio mass spectrometry (IRMS) analysis was performed to predict possible links between ETN samples and its precursors. Carbon, nitrogen, hydrogen and oxygen isotope ratios were determined for a wide variety of precursor sources and for ETN samples that were prepared with selected precursors. The stability of isotope ratios of ETN has been demonstrated for melt-cast samples and two-year old samples, which enables sample comparison of ETN in forensic casework independent of age and appearance. Erythritol and nitric acid (or nitrate salt) are the exclusive donor of carbon and nitrogen atoms in ETN, respectively, and robust linear relationships between precursor and the end-product were observed for these isotopes. This allowed for defining isotopic enrichment ranges for carbon and nitrogen that support the hypothesis that a given erythritol or nitrate precursor was used to synthesize a specific ETN batch. The hydrogen and oxygen atoms in ETN do not originate from one exclusive donor material, making linkage prediction more difficult. However, the large negative enrichments observed for both isotopes do provide powerful information to exclude suspected precursor materials as donor of ETN. Additionally, combing the isotopic data of all elements results in a higher discrimination power for ETN samples and its precursor materials. Combining the findings of our previously reported LC–MS analysis of ETN with this IRMS study is expected to increase the robustness of the forensic comparison even further. The partially nitrated impurities can provide insight on the synthesis conditions while the isotope data contain information on the raw materials used for the production of ETN.
Databáze:	OpenAIRE
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