Abstract: | The theoretical basis for a type of reaction of sulfur-acceptor carbon molecules with donor catenated forms of sulfur is presented. The reactions between conjugated ene carbonyls as sulfur-acceptors and polysulfide as a sulfur donor are described. The scope of this reaction is broadened by demonstrating that the room-temperature action of polysulfide on dienones produces thiophenes. Evidence is given for the structure of 2-benzoyl-5-phenylthiophene, resulting from 1,5-diphenyl-2,4-pentadien-1-one, and 2-acetyl-5-phenylthiophene, resulting from 6-phenyl-3,5-hexadien-2-one. Evidence is also presented for the structure of 2,4-dibenzoyl-3,5-diphenylthiolane, the product resulting from the action of polysulfide on the mixture of benzaldehyde and acetophenone. The same thiolane is shown to result as the minor thiolane component when chalcone reacts with polysulfide in 80% water/20% ethanol. The major component is a known rearranged thiolane identified by its physical properties. The reactiol of chalcone and polysulfide in ethanol at 0 or 25°C results in thiolane formation as evidenced by the isolation of 2,4-dibenzoyl-3,5-diphenylthiolane. However, the reaction of the same two compounds in boiling methanol (65°C) results in a competitive hydrogenation of chalcone giving dihydrochalcone in addition to the formation of thiolane. The demonstration of the low-temperature reaction of polysulfide with conjugated ene carbonyls in the present work adds an additional pathway for possible formation of S-heterocycles in the geosphere. |