Monocarboxylic acids with acyl functional group such as 5-oxohexanoic acid and 6-oxoheptanoic acid were characterized experimentally by electrospray ionization coupled to a triple quadrupole and TOF analyzer hybrid system. Collision-induced dissociation experiments at different activation energies were done to elucidate possible fragmentation pathways. These pathways were also studied on the theoretical level using DFT B3LYP/6-311++G(3df,3pd)//B3LYP/6-31+G(d)+ZPVE calculations. While all monocarboxylic acids fragment under loss of CO2 and H2O starting from their parent anion [M - H](-), an unusual fragmentation behaviour could be observed in case of 5-oxohexanoic acid. Synchronous CO2 and CH2CH2 elimination in a concerted mechanism was responsible for the lack of [M - H-CO2](-) fragment ion. New anionic gas phase cyclization processes could be discerned in case of 5-oxohexanoic acid. Mechanistic differences in the fragmentation pathways of [M - H](-) anions formed from 5-oxohexanoic acid and 6-oxoheptanoic acid after deprotonation were investigated both experimentally and through DFT calculations. Successive water, ketene CH2=C=O, and H-2 eliminations were observed in the CID spectra of 6-oxoheptanoic acid parent anion. CO2 ejection from the parent ion of 6-oxoheptanoic acid was inhibited due to the lack of stabilization for the formed fragment ion.

• 出版日期2007-10-1