2134/21600 Dorota Ruszkiewicz Dorota Ruszkiewicz Paul Thomas Paul Thomas Gary Eiceman Gary Eiceman Fragmentation, auto-modification and post ionisation proton bound dimer ion formation: the differential mobility spectrometry of low molecular weight alcohols. Loughborough University 2016 untagged Chemical Sciences not elsewhere classified 2016-06-10 15:06:21 Journal contribution https://repository.lboro.ac.uk/articles/journal_contribution/Fragmentation_auto-modification_and_post_ionisation_proton_bound_dimer_ion_formation_the_differential_mobility_spectrometry_of_low_molecular_weight_alcohols_/9394319 Differential mobility spectrometry (DMS) is currently being used for environmental monitoring of space craft atmospheres and has been proposed for the rapid assessment of patients at accident and emergency receptions. Three studies investigated hitherto undescribed complexity in the DMS spectra of methanol, ethanol, propan-1-ol and butan-1-ol product ions formed from a 63Ni ionisation source. 54000 DMS spectra obtained over a concentration range of 0.01 mg m−3(g) to 1.80 g m−3(g) revealed the phenomenon of auto-modification of the product ions. This occurred when the neutral vapour concentration exceeded the level required to induce a neutral-ion collision during the low field portion of the dispersion field waveform. Further, post-ionisation cluster-ion formation or protonated monomer/proton bound dimer inter-conversion within the ion-filter was indicated by apparent shifts in the values of the protonated monomer compensation field maximum; indicative of post-ionisation conversion of the protonated monomer to a proton-bound dimer. APCI-DMS-quadrupole mass spectrometry studies enabled the ion dissociation products from dispersion-field heating to be monitored and product ion fragmentation relationships to be proposed. Methanol was not observed to dissociate, while propan-1-ol and butan-1-ol underwent dissociation reactions consistent with dehydration processes that led ultimately to the generation of what is tentatively assigned as a cyclo-C3H3+ ion (m/z 39) and hydrated protons. Studies of the interaction of ion filter temperature with dispersion-field heating of product ions isolated dissociation/fragmentation product ions that have not been previously described in DMS. The implications of these combined findings with regard to data sharing and data interpretation were highlighted.