Stereochemical applications of mass spectrometry. 3—Energy dependence of the fragmentation of stereoisomeric methylcyclohexanols

Breakdown graphs have been constructed from charge exchange data for the epimeric 2‐methyl‐, 3‐methyl‐ and 4‐methyl‐cyclohexanols. Although the breakdown graphs for epimeric pairs are essentially identical above ∼12 eV recombination energy, significant differences are observed for the epimeric 2‐methyl‐ and 4‐methyl‐cyclohexanols at low internal energies. For the 2‐methylcyclohexanols the ratio ([MH 2 O] +· /[M] +· ) cis /([MH 2 O] +· /[M] +· ) trans is 3.2 in the [C 6 F 6 ] +· charge exchange mass spectra. This is attributed to both energetic and conformational effects which favour the stereospecific cis ‐1,4‐H 2 O elimination for the cis epimer. The breakdown graph for trans ‐4‐methylcyclohexanol shows a sharp peak in the abundance of the [MH 2 O] +· ion at ∼10 eV recombination energy which is absent from the breakdown graph for the cis epimer. This peak is attributed to the stereospecific cis ‐1,4‐elimination of water from the molecular ion of the trans isomer; the reaction appears to have a low critical energy but a very unfavourable frequency factor, and alternative modes of water loss common to both epimers are observed at higher energies. As a result, in the [C 6 F 6 ] +· charge exchange mass spectra the ([MH 2 O] +· /[M] +· ) trans /([MH 2 O] +· /[M] +· ) cis ratio is ∼24, compared to the value of 13 observed in the 70 eV EI mass spectra. No differences are observed in either the metastable ion abundances or the associated kinetic energy releases for epimeric molecules.