|CAS number||, (isobutenate)|
|Jmol-3D images||Image 1|
|Molar mass||135.04 g/mol|
|Melting point||−80 °C (−112 °F; 193 K)|
|Boiling point||137.1 °C (278.8 °F; 410.2 K)|
|Solubility in water||decomposes, with loss of HCl|
|Solubility||soluble in ethanol, benzene, ether, chloroform, CCl4|
|Refractive index (nD)||1.658|
|Dipole moment||1.60 D |
|EU classification||Toxic (T)
Dangerous for the environment (N)
|R-phrases||R14, R20, R25, R29, R35, R50|
|S-phrases||(S1/2), S26, S36/37/39, S45, S61|
|Flash point||118.5 °C (245.3 °F; 391.6 K)|
|Related sulfur chlorides||Sulfur dichloride
|Related compounds||Disulfur difluoride
|Except where noted otherwise, data are given for materials in their standard state (at 25 °C (77 °F), 100 kPa)|
|(what is: / ?)|
Disulfur dichloride is the chemical compound of sulfur and chlorine with the formula S2Cl2   . Some alternative names for this compound are sulfur monochloride (the name implied by its empirical formula, SCl), disulphur dichloride (British English Spelling) and sulphur monochloride (British English Spelling). S2Cl2 has the structure implied by the formula Cl-S-S-Cl, wherein the angle between the Cla-S-S and S-S-Clb planes is 90°. This structure is referred to as gauche, and is akin to that for H2O2. A different isomer of S2Cl2 is S=SCl2; this isomer forms transiently when S2Cl2 is exposed to UV-radiation (see thiosulfoxides).
Synthesis and basic properties
Pure disulfur dichloride is a yellow liquid that smokes in air due to reaction with water:
- 2 S2Cl2 + 2 H2O → SO2 + 4 HCl + 3/8 S8
It is synthesized by partial chlorination of elemental sulfur. The reaction takes place at usable rates at room temperature. In the laboratory, chlorine gas is led into a flask containing elemental sulfur. As disulfur dichloride is formed, the contents become a golden yellow liquid:
- S8 + 4 Cl2 → 4 S2Cl2 ΔH = −58.2 kJ/mol
Excess chlorine gives sulfur dichloride which causes the liquid to become less yellow and more orange-red:
- S2Cl2 + Cl2 ↔ 2 SCl2 ΔH = −40.6 kJ/mol
The reaction is reversible, and upon standing, SCl2 releases chlorine to revert to the disulfur dichloride. Disulfur dichloride has the ability to dissolve large quantities of sulfur, which reflects in part the formation of polysulfanes:
- S2Cl2 + n S → S2+nCl2
Pure disulfur dichloride is obtained by distilling the yellow-orange liquid over excess elemental sulfur.
S2Cl2 has been used to introduce C-S bonds. In the presence of AlCl3, S2Cl2 reacts with benzene to give diphenyl sulfide:
- S2Cl2 + 2 C6H6 → (C6H5)2S + 2 HCl + 1/8 S8
Anilines react with S2Cl2 in the presence of NaOH via the so-called Herz reaction to give ortho-aminothiophenolates. These species are precursors to thioindigo dyes. It is also used to prepare the sulfur mustard "gas" by reaction with ethylene at 60 °C (the Levinstein process):
- S2Cl2 + 2 C2H4 → (ClC2H4)2S + 1/8 S8
- S2Cl2 + 2 C2H4 → (ClC2H4)2S + 1/8 S8
Other uses include manufacturing sulfur dyes, insecticides, synthetic rubbers. Also used in cold vulcanization of rubbers, as polymerization catalyst for vegetable oils and for hardening soft woods.
- Pradyot Patnaik. Handbook of Inorganic Chemicals. McGraw-Hill, 2002, ISBN 0-07-049439-8
- Holleman, A. F.; Wiberg, E. Inorganic Chemistry Academic Press: San Diego, 2001. ISBN 0-12-352651-5.
- Hartman, W. W.; Smith, L. A.; Dickey, J. B. (1934), "Diphenylsulfide", Org. Synth. 14: 36; Coll. Vol. 2: 242
- R. J. Cremlyn An Introduction to Organosulfur Chemistry John Wiley and Sons: Chichester (1996). ISBN 0-471-95512-4
- Garcia-Valverde M., Torroba T. (2006). "Heterocyclic chemistry of sulfur chlorides - Fast ways to complex heterocycles". European Journal of Organic Chemistry 4 (4): 849–861. doi:10.1002/ejoc.200500786.
- F. Fehér "Dichlorodisulfane" in Handbook of Preparative Inorganic Chemistry, 2nd Ed. Edited by G. Brauer, Academic Press, 1963, NY. Vol. 1. p. 371.