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Disulfur

Disulfur
Ball and stick model of disulfur molecule
Names
IUPAC name
Disulfur
Other names
Diatomic sulfur

Sulfur

Sulfur dimer
Identifiers
23550-45-0 YesY
3D model (Jmol) Interactive image
ChEBI CHEBI:29387 YesY
ChemSpider 4574100 YesY
753
PubChem 5460602
Properties
S2
Molar mass 64.12 g·mol−1
0 D
Thermochemistry
32.51 kJ K−1 mol−1
228.17 J K−1 mol−1
128.60 kJ mol−1
Related compounds
Related compounds
Triplet oxygen
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
YesY  (what is YesYN ?)
Infobox references

Sulfur

Disulfur is the diatomic molecule with the formula S2. It is analogous to the dioxygen molecule but rarely occurs at room temperature. This violet gas is commonly generated by heating sulfur above 720 °C and comprises 99% of the vapor at low pressure (1 mm Hg) at 530 °C. S2 is one of the minor components of the atmosphere of Io, which is predominantly composed of SO2. Diatomic molecules are common containing C, O, N, and F, but for heavier elements they are often only observed at high temperatures. It is highly susceptible to photolysis by U.V. light, with a lifespan of mere minutes in daylight.

Disulfur is produced when an atmosphere of COS is irradiated with UV light using a mercury photosensitizer or when CS2, H2S2, S2Cl2 or C2H4S are photolyzed. Singlet S2 is also formed when sulfur compounds such as H2S, PSF3 or COS are photolyzed. S2 can be generated by heating various organosulfur precursors.

Gaseous disulfur has been detected emanating from the surface of Jupiter's moon Io, from the vicinity of Pele volcano.

S2 exists in the triplet state (is a diradical, with two unpaired electrons) like O2 and SO. It has the S-S double bond length of 189 pm, much shorter than the S-S single bonds in S8, which are 206 pm long. In its Raman spectrum, the S-S vibrational band is observed at 715 cm−1. The corresponding vibrational band of O-O is found at 1122 cm−1. The S-S bond energy is 265 kJ/mol compared to 498 kJ/mol for O2.

Sulfur has a large number of allotropes, perhaps as many as thirty. Their specific properties are distinguishable by various types of spectroscopy. The only stable form of sulfur at normal conditions is S8.


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