Theory and Application of Dissociative Electron Capture in Molecular Identification

“…This approach, however, requires knowledge of the electron attachment cross section. A recent NIMS study [16] of 25 nitrobenzens explored the suitability of this technique as a tool for molecular identification of electrophilic compounds.…”

Section: Introductionmentioning

confidence: 99%

Temporary anion states and dissociative electron attachment to nitrobenzene derivatives

Asfandiarov

Pshenichnyuk

Lukin

et al. 2007

International Journal of Mass Spectrometry

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“…4,5 However, despite the fact that this mixture was useful for assessing the recoveries of two-ring, four-ring, and dinitro NPAHs, it did not account for all ring types. As a result, the internal standard solution was adjusted to include a single-ring (nitrobenzene-d 5 ) and three-ring (9-nitroanthracene-d 9 ) NPAH.…”

Section: Pah and Npah Standard Studiesmentioning

confidence: 99%

“…The extraction scenario was based upon previous work conducted at CSM. 5 To streamline the NH 2 SPE method development, we utilized steps described in Analytical SolidPhase Extraction by James S. Fritz, which outlines techniques for developing SPE methods. 6 The technique developed here is based upon prefabricated 25 mL Alltech ultra-clean cartridges containing 1.5 g of amino phase.…”

Section: Solid-phase Extraction Studiesmentioning

confidence: 99%

“…However, within the error of the measurements there is no difference in total PAHs between B100 and B20 samples, and naphthalene appears to actually increase from B20 to B100. A comparison of the NPAH levels (Table 4-3) with the PAH levels (Table [4][5] shows that all of the NPAH levels (except 9-nitroanthracene) were observed to be approximately two orders of magnitude below the observed levels for the corresponding PAH. In the case of 9-nitroanthracene, this compound was consistently at or below one order of magnitude under the relative concentration of anthracene.…”

mentioning

confidence: 99%

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Investigation of Nitro-Organic Compounds in Diesel Engine Exhaust: Final Report, February 2007 - April 2008

Dane¹,

Voorhees²

2010

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Executive SummaryDiesel particle filters (DPF) dramatically reduce the level of particulate matter (PM) emitted by diesel engines. There has not, however, been much research to verify that unregulated organic pollutants associated with diesel PM are also reduced by the use of DPFs. The U.S. Department of Energy's National Renewable Energy Laboratory recently upgraded its ReFUEL engine and vehicle testing facility's capabilities to speciate unregulated gas-phase emissions. To complement this capability, the laboratory contracted with the Colorado School of Mines to study the effects of soy biodiesel fuel and a DPF on emissions of polycyclic aromatic hydrocarbons (PAH) and nitro-polycyclic aromatic hydrocarbons (NPAH). These are related types of harmful but unregulated emissions associated with PM from diesel engines.In this study, the Colorado School of Mines developed procedures to sample diesel PM emissions from raw and diluted exhaust, with and without a DPF. They also developed improved procedures for extracting PAH and NPAH from the PM and quantifying those compounds with a gas chromatograph-electron monochromator mass spectrometer. While the study found the DPF generally reduced PAH emissions by 1 to 3 orders of magnitude, PAH conversion was lowest in the case of B100, suggesting that PAHs were actually being formed in the DPF. This finding warrants further investigation.Orders of magnitude reductions were also generally found for NPAH emissions exiting the DPF. However, the conversion of 1-nitropyrene through the DPF was less than 50% for all fuels. Because 1-nitropyrene has been shown to be mutagenic and carcinogenic, and because the DPF may concentrate condensable organics on a larger number of smaller particles, this could be a very significant concern. Differences in NPAHs between raw and dilution-tunnel PM samples suggest that chemical reactions continue through the raw exhaust system or occur during dilution. The apparent net effect is to reduce the diversity of NPAH compounds and in particular increase the amount of 1-nitropyrene.iii

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Isomer Selectivity in Low‐Energy Electron Attachment to Nitroimidazoles

Ribar

Fink

Probst

et al. 2017

Chemistry A European J

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Low-energy electrons effectively decompose the isomers 2-nitroimidazole and 4(5)-nitroimidazole by dissociative electron attachment (DEA) into a variety of fragment anions and radicals. The present study shows that a distinct selectivity for the two isomers occurs in the DEA reactions. Several new decay channels are observed for 2-nitroimidazole, including a dominant one leading to the loss of molecular H O by attachment of a low-energy electron. In contrast, the loss of a single hydrogen atom is a much more efficient reaction in DEA to 4(5)-nitroimidazole. Quantum chemical calculations were carried out to explain the pronounced isomer effect found in the DEA experiment. Although the free energies of the reactions are similar for the different isomers, the very different natures of the dipole-bound states and valence-bound anions lead to preference for or hindrance of a particular dissociation channel. Nitroimidazolic compounds are considered as radiosensitizing compounds in tumor radiation therapy. The enhanced formation of fragments, including the highly reactive hydroxyl radical, in DEA to 2-nitroimidazole suggests that it may be a more efficient radiosensitizing agent than 4(5)-nitroimidazoles.

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Theory and Application of Dissociative Electron Capture in Molecular Identification

Cited by 20 publications

References 14 publications

Temporary anion states and dissociative electron attachment to nitrobenzene derivatives

Temporary anion states and dissociative electron attachment to nitrobenzene derivatives

Investigation of Nitro-Organic Compounds in Diesel Engine Exhaust: Final Report, February 2007 - April 2008

Isomer Selectivity in Low‐Energy Electron Attachment to Nitroimidazoles

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