Cage connectivity and frontier π orbitals govern the relative stability of charged fullerene isomers
- PMID: 26492014
- DOI: 10.1038/nchem.2363
Cage connectivity and frontier π orbitals govern the relative stability of charged fullerene isomers
Abstract
Fullerene anions and cations have unique structural, electronic, magnetic and chemical properties that make them substantially different from neutral fullerenes. Although much theoretical effort has been devoted to characterizing and predicting their properties, this has been limited to a fraction of isomeric forms, mostly for fullerene anions, and has practically ignored fullerene cations. Here we show that the concepts of cage connectivity and frontier π orbitals allow one to understand the relative stability of charged fullerene isomers without performing elaborate quantum chemistry calculations. The latter is not a trivial matter, as the number of possible isomers for a medium-sized fullerene is many more than 100,000. The model correctly predicts the structures observed experimentally and explains why the isolated pentagon rule is often violated for fullerene anions, but the opposite is found for fullerene cations. These predictions are relevant in fields as diverse as astrophysics, electrochemistry and supramolecular chemistry.
Comment in
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Fullerene stability: One rule for the electron-rich..Nat Chem. 2015 Nov;7(11):857-8. doi: 10.1038/nchem.2380. Epub 2015 Oct 19. Nat Chem. 2015. PMID: 26492001 No abstract available.
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