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Abstract
Most existing studies assign a polyynic and cumulenic character of chemical bonding in carbonbased
chains relying on values of the bond lengths. Building on our recent work, in this paper we add further evidence on the limitations of such an analysis and demonstrate the signi
cant insight gained via natural bond analysis. Presently reported results include atomic charges, natural bond
order and valence indices obtained from ab initio computations for representative members of the
astrophysically relevant neutral and charged HC2k/2k+1H chain family. They unravel a series of counter-intuitive aspects and/or help naive intuition in properly understanding microscopic processes,
e.g., electron removal from or electron attachment to a neutral chain. Demonstrating that the Wiberg indices adequately quantify the chemical bonding structure of the HC2k/2k+1H chains while the often heavily advertised Mayer indices do not | represents an important message
conveyed by the present study.
