The Role of Oxygen in the Formation of TNT Product Ions in Ion Mobility Spectrometry

Daum, Keith Alvin; Atkinson, David Alan; Ewing, Robert Gordon

doi:10.1016/S1387-3806(01)00591-7

Title: The Role of Oxygen in the Formation of TNT Product Ions in Ion Mobility Spectrometry

Journal Article · Fri Mar 01 00:00:00 EST 2002 · International Journal of Mass Spectrometry

DOI:https://doi.org/10.1016/S1387-3806(01)00591-7· OSTI ID:912089

Daum, Keith Alvin; Atkinson, David Alan; Ewing, Robert Gordon

The atmospheric pressure ionization of 2,4,6-trinitrotoluene (TNT) in air yields the (TNT-H)- product ion. It is generally accepted that this product ion is formed by the direct proton abstraction of neutral TNT by O2- reactant ions. Data presented here demonstrate the reaction involves the formation of an intermediate (TNT·O2)-, from the association of either TNT+O2- or TNT-+O2. This intermediate has two subsequent reaction branches. One of these branches involves simple dissociation of the intermediate to TNT-; the other branch is a terminal reaction that forms the typically observed (TNT-H)- ion via proton abstraction. The dissociation reaction involving electron transfer to TNT- appeared to be kinetically favored and prevailed at low concentrations of oxygen (less than 2%). The presence of significant amounts of oxygen, however, resulted in the predominant formation of the (TNT-H)- ion by the terminal reaction branch. With TNT- in the system, either from direct electron attachment or by simple dissociation of the intermediate, increasing levels of oxygen in the system will continue to reform the intermediate, allowing the cycle to continue until proton abstraction occurs. Key to understanding this complex reaction pathway is that O2- was observed to transfer an electron directly to neutral TNT to form the TNT-. At oxygen levels of less than 2%, the TNT- ion intensity increased with increasing levels of oxygen (and O2-) and was larger than the (TNT-H)- ion intensity. As the oxygen level increased from 2 to 10%, the (TNT-H)- product ion became predominant. The potential reaction mechanisms were investigated with an ion mobility spectrometer, which was configured to independently evaluate the ionization pathways.

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Research Organization:: Idaho National Lab. (INL), Idaho Falls, ID (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: DE-AC07-99ID-13727

OSTI ID:: 912089

Report Number(s):: INEEL/JOU-01-00228; TRN: US0800274

Journal Information:: International Journal of Mass Spectrometry, Vol. 214, Issue 2; ISSN 1387-3806

Country of Publication:: United States

Language:: English

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99 - GENERAL AND MISCELLANEOUS//MATHEMATICS, COMPUTING, AND INFORMATION SCIENCE
ATMOSPHERIC PRESSURE
DISSOCIATION
ELECTRON ATTACHMENT
ELECTRON TRANSFER
ELECTRONS
ION MOBILITY
IONIZATION
OXYGEN
PROTONS
REACTION KINETICS
SPECTROSCOPY
TNT
oxygen
reaction
spectrometry

Title: The Role of Oxygen in the Formation of TNT Product Ions in Ion Mobility Spectrometry

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