Reactions of Sterically Hindered ‘Thiocarbonyl Ylides' with 1,2‐Bis(trifluoromethyl)ethene‐1,2‐dicarbonitrile: Isolation of a Cyclic Seven‐Membered Ketene Imine

When ‘thiocarbonyl ylide' 1A (=(2,2,4,4‐tetramethyl‐3‐oxocyclobutylidenesulfonio)methanide) is generated from the dihydrothiadiazole 5A by N₂ extrusion at 40° in the presence of 2,3‐bis(trifluoromethyl)fumaronitrile ((E)‐ 10 ), a cyclic seven‐membered ketene imine 11 and trans‐thiolane 12 are formed (81 : 19). The reaction of 1A with (Z)‐ 10 furnishes 11, 12 , and cis‐thiolane 25 in the ratio of 82 : 12 : 6. The strained ketene imine 11 is crystalline and storable as a consequence of the stabilizing ‘perfluoroalkyl effect'. The ketene imine group is stereogenic; 11 has a transoid structure with respect to the CF₃ groups, and there is no evidence for the cisoid diastereoisomer. Ketene imine 11 adds H₂O, MeOH, and PhNH₂. In solution at 60°, 11 undergoes an irreversible ring contraction, furnishing the thiolanes 12 / 25 98 : 2. The rate constant of this first‐order rearrangement increases 850‐fold, as the solvent polarity rises from cyclohexane to CD₃CN, in accordance with a zwitterionic intermediate. It is the same intermediate that is initially formed from 1A and 10 , and its intramolecular N‐ and C‐alkylation give rise to 11 and 12 + 25 , respectively. In contrast to 1A , thiocarbonyl ylide 27 , which harbors the sterically less‐demanding adamantylidene group, reacts with (E)‐ 10 to give trans‐thiolane 29 , but no ketene imine. The precursor 26 catalyzes the (Z)/(E) isomerization of 10 ((E)/(Z) ca. 95 : 5 at equilibrium), thus obviating conclusions on steric course and mechanism of this cycloaddition.