Cyclocarbon

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Ring molecule composed entirely of carbon atoms

title: "Cyclocarbon" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["allotropes-of-carbon", "cyclocarbons"] description: "Ring molecule composed entirely of carbon atoms" topic_path: "general/allotropes-of-carbon" source: "https://en.wikipedia.org/wiki/Cyclocarbon" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Ring molecule composed entirely of carbon atoms ::

In organic chemistry, a cyclo[n]carbon (or simply cyclocarbon) is a chemical compound consisting solely of a number n of carbon atoms covalently linked in a ring. Since the compounds are composed only of carbon atoms, they are allotropes of carbon. Possible bonding patterns include all double bonds (a cyclic cumulene) or alternating single bonds and triple bonds (a cyclic polyyne). |author1=Yves Rubin |author2=Carolyn B. Knobler |author3=Francois Diederich | year = 1990 | title = Precursors to the cyclo[n]carbons: from 3,4-dialkynyl-3-cyclobutene-1,2-diones and 3,4-dialkynyl-3-cyclobutene-1,2-diols to cyclobutenodehydroannulenes and higher oxides of carbon | journal = J. Am. Chem. Soc. | volume = 112 | issue = 4 | doi = 10.1021/ja00160a047 | pages = 1607–1617 |author1=François Diederich |author2=Yves Rubin |author3=Carolyn B. Knobler |author4=Robert L. Whetten |author5=Kenneth E. Schriver |author6=Kendall N. Houk |author7=Yi Li | title = All-Carbon Molecules: Evidence for the Generation of Cyclo[18]carbon from a Stable Organic Precursor | journal = Science | date = 8 September 1989 | volume = 245 | issue = 4922 | pages = 1088–1090 | doi = 10.1126/science.245.4922.1088 | pmid = 17838807 |bibcode = 1989Sci...245.1088D |s2cid=23726682 }}

The first cyclocarbon synthesized is cyclo[18]carbon (C18). Besides that, C6, C10, C12, C13, C14, C16, C20, and C26 are all known.

Cyclo[3]carbon

Main article: Cyclopropatriene

The (hypothetical) three-carbon member of this family () is also called cyclopropatriene.

Cyclo[6]carbon

Main article: Cyclo(6)carbon

The six-carbon member of this family () is also called benzotriyne.

Cyclo[18]carbon

Main article: Cyclo(18)carbon

The smallest cyclo[n]carbon predicted to be relatively stable is C18, with a computed strain energy of 72 kilocalories per mole. An IBM/Oxford team claimed to synthesize its molecules in solid state in 2019: ::figure[src="https://upload.wikimedia.org/wikipedia/commons/3/3d/Synthesis_of_cyclocarbon.png" caption="Synthesis of cyclocarbon"] ::

According to these IBM researchers, the synthesized cyclocarbon has alternating triple and single bonds, rather than being made of entirely of double bonds. This supposedly makes this molecule a semiconductor.

Large cyclo[n]carbons

Larger cyclo[n]carbons, up to 100 carbon atoms, are predicted to exhibit polyradical character, like linear carbon chains. For all the cases investigated, n-atom linear and cyclic carbon chains (respectively l-CC[n] and c-CC[n]) are ground-state singlets, and energetically more stable as closed rings. The electronic properties of l-CC[n] and c-CC[n] display peculiar oscillation patterns for smaller values of n, followed by monotonic changes for larger values. For the smaller carbon chains, odd-numbered l-CC[n] are more stable than the adjacent even-numbered ones, and c-CC[4m+2]/c-CC[4m] (where m are positive integers) are respectively more/less stable than the adjacent odd-numbered ones. With the increase of n, l-CC[n] and c-CC[n] possess increasing polyradical nature in their ground states, with the active orbitals being delocalized over the entire length of l-CC[n] or the whole circumference of c-CC[n].

On the basis of TAO-LDA results, the smaller c-CC[n] (up to n = 22) possess nonradical nature and sizable singlet-triplet energy gaps (e.g., larger than 20 kcal/mol). In addition to the known c-CC[18], Seenithurai and Chai predicted that c-CC[10], c-CC[14], and c-CC[22] are likely to be synthesized in the near future.

c-CC[48] is not stable in solution at room temperature, but can be stabilized by threading it through bulky rings as a rotaxane.

References

References

  1. (2023-10-05). "On-surface synthesis of anti-aromatic cyclo[12]carbon and aromatic cyclo[6]carbon".
  2. (2023-10-05). "On-surface synthesis and characterization of anti-aromatic cyclo[20]carbon".
  3. (2024-05-10). "The odd-number cyclo[13]carbon and its dimer, cyclo[26]carbon". Science.
  4. (1996). "Towards the total synthesis of cyclo[''n'']carbons and the generation of cyclo[6]carbon". J. Chem. Soc., Perkin Trans. 1.
  5. (15 Aug 2019). "An sp-hybridized molecular carbon allotrope, cyclo[18]carbon". Science.
  6. (15 August 2019). "Chemists make first-ever ring of pure carbon". Nature.
  7. (4 August 2020). "TAO-DFT investigation of electronic properties of linear and cyclic carbon chains". Scientific Reports.
  8. (14 Aug 2025). "Solution-phase stabilization of a cyclocarbon by catenane formation". Science.

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allotropes-of-carboncyclocarbons