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Development of a variable-temperature ion mobility/ time-of-flight mass spectrometer for separation of electronic isomersVerbeck, Guido Fridolin 29 August 2005 (has links)
The construction of a liquid nitrogen-cooled ion mobility spectrometer coupled
with time-of-flight mass spectrometry was implemented to demonstrate the ability to
discriminate between electronic isomers. Ion mobility allows for the separation of ions
based on differing cross-sections-to-charge ratio. This allows for the possible
discrimination of species with same mass if the ions differ by cross-section. Time-offlight
mass spectrometry was added to mass identify the separated peak for proper
identification.
A liquid nitrogen-cooled mobility cell was employed for a two-fold purpose.
First, the low temperatures increase the peak resolution to aid in resolving the separated
ions. This is necessary when isomers may have similar cross-sections. Second, low
temperature shortens the mean free path and decreases the neutral buffer gas speeds
allowing for more interactions between the ions and the drift gas. Kr2+ study was
performed to verify instrument performance.
The variable-temperature ion mobility spectrometer was utilized to separate the
distonic and conventional ion forms of CH3OH, CH3F, and CH3NH2 and to discriminate
between the keto and enol forms of the acetone radical cation. Density functional theory
and ab initio calculations were employed to aid in proper identification of separating
isomers. Monte Carlo integration tools were also developed to predict ion cross-section
and resolution within a buffer gas.
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Reactions of Ionised Pryridazine, 2-Aminopyrazine and 2-Aminopyridine and their a-Distonic Isomers.Karapanayiotis, Thanassis, Dimopolos-Italiano, G., Bowen, Richard D., Terlouw, J.K. January 2004 (has links)
No / The reactions of ionised pyridazine, aminopyrazine and aminopyridine and the corresponding ¿-distonic ions are examined by a combination of tandem mass spectrometric techniques, including analysis of metastable ion (MI), collision induced dissociation and neutralisation¿reionisation mass spectra (NRMS). Further insight into the relative stability and energy barriers towards tautomerism of each ionised heterocycle with its ¿-distonic isomer is obtained by computational methods. In all these systems, both the conventional radical-cation and the ¿-distonic tautomer are stable species which exist in discrete energy wells, with a significant barrier towards their interconversion. Although each ¿-distonic ion is sufficiently stable to survive neutralisation¿reionisation, the conventional ionised heterocycle is more stable in each case. The possibility of investigating proton-transport catalysis in the tautomerism of these ionic systems is discussed.
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