Metastable peak study in methylactophenone isomers

Abstract

Abstract The relative intensity of the metastable peaks at 70 eV appearing at m / z 105.7 and 69.6 in the mass spectra of methylacetophenone isomers, as well as the kinetic energy ( T 1/2 ) released with the peaks at 14 and 70 eV respectively, are reported. The profile of all the metastable peaks studied has been found to be approximately flat‐topped. For the same transition it is found that the kinetic energy released with the metastable peaks formed by unimolecular decomposition of the three isomers decreases from the ortho to the para isomer. In addition, the kinetic energy released during the same transition is found to be roughly directly proportional to their corresponding intensity ratios. This result, together with the observation that the energy released with each metastable peak decreases by lowering the electron energy, may reveal the role of the internal energy of the reacting ions in producing the kinetic energy associated with the metastable peaks produced from methylacetophenone isomers.

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