Episulfide

In organic chemistry, an episulfide is an organic compound that contain a saturated, heterocyclic ring consisting of two carbon atoms and one sulfur atom. It is the sulfur analogue of an epoxide or aziridine. They are also known as thiiranes, olefin sulfides, thioalkylene oxides,^{[citation needed]} and thiacyclopropanes. Episulfides are less common and generally less stable than epoxides. The most common derivative is ethylene sulfide (C₂H₄S).^[1]^[2]

Structure

According to electron diffraction, the C−C and C−S distances in ethylene sulfide are respectively 1.473 and 1.811 Å. The C−C−S and C−S−C angles are respectively 66.0 and 48.0°.^[1]

Preparation

A number of chemists in the early 1900s, including Staudinger and Pfenninger (1916), as well as Delepine (1920) studied episulfides. In 1934 Dachlauer and Jackel devised a general synthesis of episulfides from epoxides using alkali thiocyanates and thiourea.^[3]

Episulfides can also be prepared from cyclic carbonates, hydroxyalkylthiols, halohydrins, dihaloalkanes, and chloroalkylthiols.^[3] For example, the reaction of ethylene carbonate and KSCN gives ethylene sulfide:^[4]

KSCN + C₂H₄O₂CO → KOCN + C₂H₄S + CO₂

Base converts monothiocarbonates to episulfides:^[5]

RC₂H₃OSCO → RC₂H₃S + CO₂

The metal-catalyzed reaction of sulfur with alkenes has been demonstrated but is of little preparative value.^[6]

Tetrasubstituted thiiranes form spontaneously from the corresponding thiocarbonyl ylide.^[7]

Reactions

Episulfides, due to their innate ring strain, often undergo ring-opening reactions, especially with nucleophiles.^[3] For terminal episulfides, nucleophiles attack the primary carbon:

R₂C(S)CH₂ + NuH → R₂CHCH₂SNu

Nucleophiles include hydrides, thiolates, alkoxides, amines, and carbanions.

Like ordinary thioethers, episulfides can be oxidized to sulfoxides as in the synthesis of ethylene episulfoxide:

R₂C(S)CH₂ + H₂O₂ → R₂C(SO)CH₂ + H₂O

In a related reactivity, episulfides are easily S-alkylated. With methyl bromide, the product is the ring-opened thioether:^[8]

R₂C(S)CH₂ + R'Br → R₂C(Br)CH₂SR'

Such reactions proceed via episulfonium ions. Episulfonium salts can be prepared using trimethyloxonium tetrafluoroborate:

{{chem2|R2C(S)CH2 + (CH3)3OBF4 -> [[R2C(SCH3)CH2]BF4 + (CH3)2O'}}

Episulfide polymerize, especially in the presence of Lewis acids.^[9]

Applications

Epitiostanol, an episulfide-containing drug for the treatment of breast cancer.^[10]

Thiiranes occur rarely in nature but are found in some pharmaceuticals.^[1] They are intermediate in the action of sulfur mustards, a family of chemical weapons.^[11]

Related compounds

Dithiiranes consist of three-membered ring containing two sulfur atoms and one carbon. One example was prepared by oxidation of a 1,3-dithietane.^[12]

Thiirenes are unsaturated episulfides, the parent having the formula C₂H₂S formally derived by the formal addition of sulfur atom to an alkyne. They are antiaromatic and rarely observed. S-Alkylthiirenium salts are, however, known.^[13]^[14]

Structure

Preparation

Reactions

Applications

Related compounds

References

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