Tricarbon: Difference between revisions

Tricarbon
Names
	Other names Triatomic carbon[citation needed]
Identifiers
CAS Number	12075-35-3 ;
3D model (JSmol)	Interactive image;
ChemSpider	4937270 ;
PubChem CID	6432003;
CompTox Dashboard (EPA)	DTXSID801027035 ;
	InChI InChI=1S/C3/c1-3-2 Key: NVLRFXKSQQPKAD-UHFFFAOYSA-N ;
	SMILES [C]=C=[C];
Properties
Chemical formula	C3
Molar mass	36.033 g·mol−1
Thermochemistry
Std molar; entropy (S⦵298)	237.27 J K−1 mol−1
Std enthalpy of; formation (ΔfH⦵298)	820.06 kJ mol−1
Related compounds
	Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Infobox references

Browse history interactively

← Previous edit Next edit →

Content deleted Content added

VisualWikitext

Inline

Revision as of 13:15, 12 October 2013

Tricarbon (systematically named 1λ²,3λ²-propadiene and μ-methanetetraidodicarbon) 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.

It is a small carbon cluster first spectroscopically observed in the beginning 20th century in the tail of a comet by William Huggins and subsequently identified in stellar atmospheres. Tricarbon can be found in interstellar space and can be produced in the laboratory by a process called laser ablation. 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. 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 electron-volts.^[1] In contrast to the linear tricarbon molecule the C₃⁺ cation is bent.

C₃ has also been identified as a transient species in various combustion reactions.^{[citation needed]}

The generation of C₃ was investigated by Professor Emeritus Philip S. Skell of Pennsylvania State University in the 1960s.^{[citation needed]}

Nomenclature

The systematic names 1λ²,3λ²-propadiene, and μ-methanetetraidodicarbon, 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 electrons 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.

References

^ Nicolas, Christophe (2006). "Vacuum Ultraviolet Photoionization of C₃". J. Am. Chem. Soc. 128 (1): 220–226. doi:10.1021/ja055430. PMID 16390150. {{cite journal}}: Cite has empty unknown parameter: |month= (help); Unknown parameter |coauthors= ignored (|author= suggested) (help)

@@ Line 41: / Line 41: @@
 The generation of C<sub>3</sub> was investigated by Professor Emeritus [[Philip Skell|Philip S. Skell]] of [[Pennsylvania State University]] in the 1960s.{{Citation needed|date=September 2009}}
-==See also==
+== Nomenclature ==
+The systematic names ''1λ<sup>2</sup>,3λ<sup>2</sup>-propadiene'', and ''μ-methanetetraidodicarbon'', 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 electrons 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''.
+== See also ==
 *[[Hydrocarbons]]
 *[[Alkene]]s
@@ Line 47: / Line 54: @@
 *[[Cyclopropatriene]]
-==References==
+== References ==
 {{Reflist}}
-==Further reading==
+== Further reading ==
 *{{cite book |title=Flames: their structure, radiation and temperature |last=Gaydon |first=Alfred G. |authorlink= |coauthors=Wolfhard, Hans G. |year=1979 |publisher=Chapman and Hall |location=London |isbn=0-412-15390-4 |edition=4. ed., rev. |pages= }}
 *{{cite journal | last = Hinkle | first = Kenneth W. | authorlink = | coauthors = Keady, John J.; Bernath, Peter F. | year = 1988 | month = | title = Detection of C<sub>3</sub> in the Circumstellar Shell of IRC+10216 | journal = [[Science (journal)|Science]] | volume = 241 | issue = 4871 | pages = 1319&ndash;1322 | doi = 10.1126/science.241.4871.1319 | url = | accessdate = | quote = | pmid = 17828935 |bibcode = 1988Sci...241.1319H }}
 {{Allotropes of carbon}}

v t e Allotropes of carbon
sp³ forms	Diamond (cubic) Lonsdaleite (hexagonal diamond)
sp² forms	Graphite Graphene Fullerenes, including C₆₀ (buckminsterfullerene), C₇₀, Fullerene whiskers, Nanotubes, Nanobuds, Nanoscrolls) Glassy carbon
sp forms	Linear acetylenic carbon C ₆ (cyclo[6]carbon) C ₁₈ (cyclo[18]carbon)
mixed sp³/sp² forms	Amorphous carbon Carbon nanofoam Carbide-derived carbon Q-carbon
other forms	C ₁ (atomic carbon) C ₂ (diatomic carbon) C ₃ (tricarbon)
hypothetical forms	C ₃ (cyclopropatriene) C ₆ (prismane C8) Chaoite Haeckelites Cubic carbon Metallic carbon Penta-graphene
related	Activated carbon Carbon black Charcoal Carbon fiber Aggregated diamond nanorod