The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives

Existing instrumental techniques must be adaptable to the analysis of novel explosives if science is to keep up with the practices of terrorists and criminals. The focus of this work has been the development of analytical techniques for the analysis of two types of novel explosives: ascorbic acid-ba...

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Main Author: Bottegal, Megan N
Format: Others
Published: FIU Digital Commons 2010
Subjects:
IC
Online Access:http://digitalcommons.fiu.edu/etd/154
http://digitalcommons.fiu.edu/cgi/viewcontent.cgi?article=1188&context=etd
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spelling ndltd-fiu.edu-oai-digitalcommons.fiu.edu-etd-11882018-01-05T15:30:38Z The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives Bottegal, Megan N Existing instrumental techniques must be adaptable to the analysis of novel explosives if science is to keep up with the practices of terrorists and criminals. The focus of this work has been the development of analytical techniques for the analysis of two types of novel explosives: ascorbic acid-based propellants, and improvised mixtures of concentrated hydrogen peroxide/fuel. In recent years, the use of these explosives in improvised explosive devices (IEDs) has increased. It is therefore important to develop methods which permit the identification of the nature of the original explosive from post-blast residues. Ascorbic acid-based propellants are low explosives which employ an ascorbic acid fuel source with a nitrate/perchlorate oxidizer. A method which utilized ion chromatography with indirect photometric detection was optimized for the analysis of intact propellants. Post-burn and post-blast residues if these propellants were analyzed. It was determined that the ascorbic acid fuel and nitrate oxidizer could be detected in intact propellants, as well as in the post-burn and post-blast residues. Degradation products of the nitrate and perchlorate oxidizers were also detected. With a quadrupole time-of-flight mass spectrometer (QToFMS), exact mass measurements are possible. When an HPLC instrument is coupled to a QToFMS, the combination of retention time with accurate mass measurements, mass spectral fragmentation information, and isotopic abundance patterns allows for the unequivocal identification of a target analyte. An optimized HPLC-ESI-QToFMS method was applied to the analysis of ascorbic acid-based propellants. Exact mass measurements were collected for the fuel and oxidizer anions, and their degradation products. Ascorbic acid was detected in the intact samples and half of the propellants subjected to open burning; the intact fuel molecule was not detected in any of the post-blast residue. Two methods were optimized for the analysis of trace levels of hydrogen peroxide: HPLC with fluorescence detection (HPLC-FD), and HPLC with electrochemical detection (HPLC-ED). Both techniques were extremely selective for hydrogen peroxide. Both methods were applied to the analysis of post-blast debris from improvised mixtures of concentrated hydrogen peroxide/fuel; hydrogen peroxide was detected on variety of substrates. Hydrogen peroxide was detected in the post-blast residues of the improvised explosives TATP and HMTD. 2010-03-23T07:00:00Z text application/pdf http://digitalcommons.fiu.edu/etd/154 http://digitalcommons.fiu.edu/cgi/viewcontent.cgi?article=1188&context=etd FIU Electronic Theses and Dissertations FIU Digital Commons Explosives HPLC IC Mass Spectrometry Propellants Ascorbic Acid Hydrogen Peroxide
collection NDLTD
format Others
sources NDLTD
topic Explosives
HPLC
IC
Mass Spectrometry
Propellants
Ascorbic Acid
Hydrogen Peroxide
spellingShingle Explosives
HPLC
IC
Mass Spectrometry
Propellants
Ascorbic Acid
Hydrogen Peroxide
Bottegal, Megan N
The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
description Existing instrumental techniques must be adaptable to the analysis of novel explosives if science is to keep up with the practices of terrorists and criminals. The focus of this work has been the development of analytical techniques for the analysis of two types of novel explosives: ascorbic acid-based propellants, and improvised mixtures of concentrated hydrogen peroxide/fuel. In recent years, the use of these explosives in improvised explosive devices (IEDs) has increased. It is therefore important to develop methods which permit the identification of the nature of the original explosive from post-blast residues. Ascorbic acid-based propellants are low explosives which employ an ascorbic acid fuel source with a nitrate/perchlorate oxidizer. A method which utilized ion chromatography with indirect photometric detection was optimized for the analysis of intact propellants. Post-burn and post-blast residues if these propellants were analyzed. It was determined that the ascorbic acid fuel and nitrate oxidizer could be detected in intact propellants, as well as in the post-burn and post-blast residues. Degradation products of the nitrate and perchlorate oxidizers were also detected. With a quadrupole time-of-flight mass spectrometer (QToFMS), exact mass measurements are possible. When an HPLC instrument is coupled to a QToFMS, the combination of retention time with accurate mass measurements, mass spectral fragmentation information, and isotopic abundance patterns allows for the unequivocal identification of a target analyte. An optimized HPLC-ESI-QToFMS method was applied to the analysis of ascorbic acid-based propellants. Exact mass measurements were collected for the fuel and oxidizer anions, and their degradation products. Ascorbic acid was detected in the intact samples and half of the propellants subjected to open burning; the intact fuel molecule was not detected in any of the post-blast residue. Two methods were optimized for the analysis of trace levels of hydrogen peroxide: HPLC with fluorescence detection (HPLC-FD), and HPLC with electrochemical detection (HPLC-ED). Both techniques were extremely selective for hydrogen peroxide. Both methods were applied to the analysis of post-blast debris from improvised mixtures of concentrated hydrogen peroxide/fuel; hydrogen peroxide was detected on variety of substrates. Hydrogen peroxide was detected in the post-blast residues of the improvised explosives TATP and HMTD.
author Bottegal, Megan N
author_facet Bottegal, Megan N
author_sort Bottegal, Megan N
title The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
title_short The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
title_full The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
title_fullStr The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
title_full_unstemmed The Development of High Performance Liquid Chromatography Systems for the Analysis of Improvised Explosives
title_sort development of high performance liquid chromatography systems for the analysis of improvised explosives
publisher FIU Digital Commons
publishDate 2010
url http://digitalcommons.fiu.edu/etd/154
http://digitalcommons.fiu.edu/cgi/viewcontent.cgi?article=1188&context=etd
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