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Tricarbon

From Wikipedia, the free encyclopedia
Tricarbon
Skeletal formula of tricarbon with all lone pairs shown
Names
IUPAC name
Tricarbon
Systematic IUPAC name
2,3λ2-propadiene
Other names
Triatomic carbon[citation needed]
Identifiers
3D model (JSmol)
ChemSpider
  • InChI=1S/C3/c1-3-2 checkY
    Key: NVLRFXKSQQPKAD-UHFFFAOYSA-N checkY
  • [C]=C=[C]
Properties
C3
Molar mass 36.033 g·mol−1
Thermochemistry
237.27 J K−1 mol−1
820.06 kJ mol−1
Related compounds
Related carbon molecules
Diatomic carbon
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Tricarbon (systematically named 2,3λ2-propadiene and catena-tricarbon) is an inorganic compound with the chemical formula C
2
(μ-C)
(also written [C(μ-C)C] or C
3
). It is a colourless gas that only persists in dilution or solution as an adduct. It is one of the simplest unsaturated carbenes. Tricarbon can be found in interstellar space and can be produced in the laboratory by a process called laser ablation.

Natural occurrence

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Tricarbon is a small carbon cluster first spectroscopically observed in the early 20th century in the tail of a comet by William Huggins and subsequently identified in stellar atmospheres. Small carbon clusters like tricarbon and dicarbon are regarded as soot precursors and are implicated in the formation of certain industrial diamonds and in the formation of fullerenes.

C3 has also been identified as a transient species in various combustion reactions.[1]: 218–220, plate 20 

Properties

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Chemical properties

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The chemical properties of C3 was investigated in the 1960s by Professor Emeritus Philip S. Skell of Pennsylvania State University, who showed that certain reactions of carbon vapor indicated its generation, such as the reaction with isobutylene to produce 1,1,1',1'-tetramethyl-bis-ethanoallene.[2]

Physical properties

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The ground state molecular geometry of tricarbon has been identified as linear via its characteristic symmetric and antisymmetric stretching and bending vibrational modes and bears bond lengths of 129 to 130 picometer corresponding to those of alkenes. The ionization potential is determined experimentally at 11 to 13.5 electronvolts.[3] In contrast to the linear tricarbon molecule, the C+
3
cation is bent.

Nomenclature

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The systematic names 2,3λ2-propadiene, and μ-carbidodicarbon, valid IUPAC names, are constructed according to the substitutive and additive nomenclatures, respectively.

In appropriate contexts, tricarbon can be viewed as propadiene with four hydrogen atoms removed, or as propane with eight hydrogen atoms removed; and as such, propadienediylidene or propanetetraylidene, respectively, may be used as a context-specific systematic names, according to substitutive nomenclature. By default, these names pay no regard to the radicality of the tricarbon molecule. In even more specific context, these can also name the non-radical singlet state, whereas the diradical state is named propadienediylylidene, or propanediyldiylidene, and the tetraradical state is named propedienetetrayl or propanetetraylylidene.[2]

See also

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References

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  1. ^ Gaydon, Alfred G.; Wolfhard, Hans G. (1979). "Detection of intermediate products". Flames: their structure, radiation and temperature (4th rev. ed.). London: Chapman and Hall. ISBN 0-412-15390-4.
  2. ^ a b Skell, P. S.; Wescott, L. D. (1963). "Chemical Properties of C 3 , a Dicarbene". Journal of the American Chemical Society. 85 (7): 1023. doi:10.1021/ja00890a059. ISSN 0002-7863.
  3. ^ Nicolas, Christophe; et al. (2006). "Vacuum Ultraviolet Photoionization of C3". Journal of the American Chemical Society. 128 (1): 220–226. doi:10.1021/ja055430+. PMID 16390150.

Further reading

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