Elimination of H2 from CH3CH=N+HCH3: A Synchronous, Concerted 1,4-H2 Elimination

Most H2 eliminations from cations in the gas phase are formally 1,1- or 1,2- processes. Larger ring size H2 eliminations are rare and little studied. Thus, whether the 6-center, 1,4- elimination CH3CH=N+HCH3 → CH2=CHN+H=CH2 + H2 is concerted and synchronous, as indicated by isotope effects and predicted by conservation of orbital symmetry, is a significant question. This reaction is characterized here by application of QCI and B3LYP theories. CH bond-breaking and H–H bond-making in this reaction are found by theory to be highly synchronized, consistent with previously established isotope effects and in contrast to “forbidden” 1,2-eliminations from organic cations in the gas phase. This reaction is made feasible by its conservation of orbital symmetry, the energy supplied by formation of the H–H bond, and a favorable geometry of the ion for eliminating H2.