Disulfur dioxide
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| Names | |
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| Other names
disulfur(II)oxide
SO dimer |
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| Identifiers | |
| 126885-21-0 | |
| 3D model (Jmol) | Interactive image |
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| Properties | |
| S2O2 | |
| Molar mass | 96.1299 g/mol |
| Appearance | gas |
| Structure | |
| bent | |
| Hazards | |
| Main hazards | toxic |
| Related compounds | |
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Related compounds
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tetrasulfur SO, S3O S2O |
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Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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| Infobox references | |
Disulfur dioxide, dimeric sulfur monoxide or SO dimer is an oxide of sulfur. The solid is unstable with a lifetime of a few seconds at room temperature.
Disulfur dioxide adopts cis-planar structure with C2v symmetry. The S-O bond length is 145.8 pm, shorter than in sulfur monoxide. The S-S bond length is 202.45 pm and the OSS angle is 112.7°. S2O2 has a dipole moment of 3.17 D. an asymmetric top molecule.
Sulfur monoxide (SO) converts to disulfur dioxide (S2O2) spontaneously and reversibly. So the substance can be generated by methods that produce sulfur monoxide. Disulfur dioxide has also been formed by an electric discharge in sulfur dioxide. Another laboratory procedure is to react oxygen atoms with carbon oxysulfide or carbon disulfide vapour.
Although most forms of elemental sulfur (S8 and other rings and chains) does not combine with SO2, atomic sulfur does so to form sulfur monoxide, which dimerizes:
Disulfur dioxide is also produced upon a microwave discharge in sulfur dioxide diluted in helium. At a pressure of 0.1 mm Hg,five percent of the result is S2O2.
Disulfur dioxide is formed transiently when hydrogen sulfide and oxygen undergo flash photolysis.
The ionisation energy of disulfur dioxide is 9.93±0.02 eV.
Disulfur dioxide absorbs at 320–400 nm, as observed of the Venusian atmosphere, and is believed to have contributed to the greenhouse effect on that planet.
Although disulfur dioxide exists in equilibrium with sulfur monoxide, it also reacts with sulfur monoxide to form sulfur dioxide and disulfur monoxide.
S2O2 can be a ligand with transition metals. It binds in the η2-S,S' position with both sulfur atoms linked to the metal atom. This was first shown in 2003. The bis-(trimethylphosphine) thiirane S-oxide complex of platinum, when heated in toluene at 110 °C loses ethylene, and forms a complex with S2O2: (Ph3P)2PtS2O2. Iridium atoms can also form a complex: cis-[(dppe)2IrS2]Cl with sodium periodate oxidises to [(dppe)2IrS2O] and then to [(dppe)2IrS2O2], with dppe being 1,2-Bis(diphenylphosphino)ethane. This substance has the S2O2 in a cis position. The same conditions can make a trans complex, but this contains two separate SO radicals instead. The iridium complex can be decomposed with triphenyl phosphine to form triphenyl phosphine oxide, and triphenyl phosphine sulfide.
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