Cyclo[6]carbon is an allotrope of carbon with molecular formula . This theoretical molecule is a ring of six carbon atoms, connected by alternating double bonds. It is, therefore, a member of the [[cyclocarbon|cyclo[n]carbon]] family.
Cyclo[6]carbon is an allotrope of carbon with molecular formula . This theoretical molecule is a ring of six carbon atoms, connected by alternating double bonds. It is, therefore, a member of the [[cyclocarbon|cyclo[n]carbon]] family.
There have been a few attempts to synthesize cyclo[6]carbon, e.g. by pyrolysis of mellitic anhydride, but without success until 2023, when it was successfully synthesised by atom manipulation of hexachlorobenzene, although more thorough research has yet to be reported in peer-reviewed scientific work. Another synthesis was reported in 2025 by the dehalogenation of hexaiodobenzene on a sodium chloride layer on an Au(111) surface. The molecule's structure presents double bonds in sequence in a bent fashion, which is not explained by valence bond theory for organic molecules, that describes double bonds by combinations of hybridised sp2 orbitals, limiting the molecule's geometry in terms of increase of energy due to bond angles. Cyclo[6]carbon would present then low probability of formation due to its high energy state from a thermodynamical perspective, which is reflected on the lack of evidence of its successful synthesis.
Discovered by embedding cosine similarity (sentence-transformers MiniLM, 384-dim).