A study of the gas-phase reaction between protonated acetaldehyde and methanol

Abstract

AbstractProtonated acetaldehyde is methylated on the oxygen during interaction with methanol in the gas phase. The ionic product of the ion/molecule reaction between methanol and protonated acetaldehyde is identical with C-protonated methylvinyl ether (high-pressure ionization), and with the (M − C2H5)+ fragment ion of sec-butyl methyl ether (following electron ionization), and also with the (M − OCH3)+ fragment ion of acetaldehyde dimethylacetal (following electron ionization). The structures of these ions and the mechanism of their formation were established by isotope-labeling experiments and collision-induced dissociation mass spectra of model compounds obtained with three different types of tandem mass spectrometers (BEQQ, triple-quadrupole, and a penta-quadrupole instrument). Gas phase synthesis of the product ion from [2H3]-methanol or [2H4]-acetaldehyde provided insight into its mode of formation and collision-induced dissociation