Lower sulfur oxides

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Structure of S2O
Ball-and-stick model of cyclooctasulfur monoxide, S8O

The lower sulfur oxides are a group of inorganic compounds with the formula SmOn, where m < 2n. These species are often unstable and thus rarely encountered in everyday life. They are significant intermediates in the combustion of elemental sulfur.[1] Some well characterized examples include sulfur monoxide (SO), its dimer S2O2, and a series of cyclic sulfur oxides, SnOx (x = 1, 2), based on cyclic Sn rings.

Interest in the lower sulfur oxides has increased because of the need to understand terrestrial atmospheric sulfur pollution and the finding that the extraterrestrial atmospheres of Io, one of Jupiter's moons, and Venus contain significant amounts of sulfur oxides. Some compounds reported by early workers such as the blue "sesquioxide", S2O3, formed by dissolving sulfur in liquid SO3 appears to be a mixture of polysulfate salts of the S42+ and S82+ ions.[1]

Sulfur monoxide, disulfur dioxide, disulfur monoxide

These species are all very unstable and are observed as fleeting intermediates in the gas phase. At a few millibars pressure, the relative stabilities are S2O > S2O2 > SO.[2] Sulfur monoxide (SO) and its dimer (S2O2) have been trapped at low temperature. Disulfur dioxide (S2O2) is a dimer of sulfur monoxide. It has C2v structure (planar).

Disulfur monoxide (S2O) is an unstable analogue of sulfur dioxide. Like SO2 as well as ozone (O3), and trisulfur (S3), it adopts a bent structure. The S-S bond length is 188.4pm, the S-O bond is 146.5pm and the SSO angle is 117.88. The two dipole moment components are μa = 0.875D and μb = 1.18D[3] This species decomposes to give a polymeric sulfur oxides ("PSO's") with the approximate formula [S3O]n. PSO's decompose at room temperature to elemental sulfur and SO2. PSO's have been proposed to be responsible for the colour of Io.[4]


Trisulfur monoxide, S3O is an unstable molecule. It has been detected in the gas phase using neutralization-reionization mass spectrometry. Both cyclic and chain structures were found.[5]

Cyclic SnOx (x = 1, 2)

A number of monoxides SnO are known where n= 5-10, where the oxygen is bonded to one member of the Sn sulfur ring.[2] They can be prepared by oxidising the related cyclo-Sn elemental sulfur rings (these are allotropes of sulfur) with trifluoroperoxoacetic acid, CF3C(O)OOH.[1] The compounds are all yellow or orange-coloured and decompose to sulfur and sulfur dioxide.[1]
S6O2 and S7O2 can be prepared by oxidising cyclo-S6 and cyclo-S7 respectively, with trifluoroperoxoacetic acid, although crystalline S6O2 has not been isolated.[1]

References

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  2. 2.0 2.1 R. Steudel: Sulfur-Rich Oxides SnO and SnO2" in Elemental Sulfur und Sulfur-Rich Compounds II, Steudel, R., 2003, Springer, Berlin-Heidelberg. ISBN 9783540449515
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