Zusammensetzung von Rohsulfan, Nachweis der Sulfane H2S9 bis H2S35 Composition of Crude Sulfane Oil, Identification of the Sulfanes H2S9 to H2S35

Abstract

In benzene solution the position of the ¹H NMR signals of sulfanes, H₂Sn, strongly depends on the sulfur chain length and on the sulfane concentration. Under proper conditions all sulfanes in a mixture are characterized by well-resolved NMR signals showing a downfield shift with increasing length of the sulfur chain. The shift differences between the higher homologues ( n > 8 ) remain nearly constant, thus allowing the assignment of the signals up to H₂S₃₅ and the determination of the complete sulfane distribution in crude oils. In sulfane mixtures without solvent as well as in CS₂ and CCl₄ solutions, however, H₂S₈ shows the largest downfield shift. The signals of the higher sulfanes overlap in a narrow range at slightly higher field and cannot be characterized except for the CCl₄ solution where an assignment up to H₂S₁₁ is possible. The chemical shifts are interpreted in terms of inter- and intramolecular hydrogen bondings. The upfield shift caused by benzene is attributed to the formation of H₂S_{n ·} benzene complexes.