A study of rearrangement processes in the mass spectra of substituted benzophenones which provide a guide to orientation

An investigation of the mass spectra of a number of substituted diphenyl ethers has shown that the major fragment ions are commonly due to cleavage of the molecule into the two benzene 'half' fragments although in many cases the molecular ion is the most abundant species observed. Little evidence i

## Abstract The behaviour of the title compounds under electron impact has been investigated using low and high resolution mass spectrometry and partial ^15^N and D labelling. A number of ions produced by rearrangement were observed. Abundant ions are formed by intramolecular ortho substitution rea

The technique of Beynonz has been used to determine the 'doubly-charged ion' mass spectra of a variety of aromatic compounds which contain pronounced rearrangement peaks in their conventional mass spectra. Many, but not all, of the 'doubly-charged ion' spectra contain similar rearrangement peaks to

The mass spectra of the compounds C,,F,Mz (M = S, Se), (I), C12F,M (M = S, Se, Te), (11) and C,,F,SX, (X = Br, I), (III), have been measured. Results indicate that sulfur-carbon bonds are more stable under electron bombardment than either selenium-carbon or tellurium-carbon bonds. Numerous metastabl