Affiliation:
1. Centre for Theoretical Chemistry and Physics, The New Zealand Institute for Advanced Study Massey University Auckland Auckland New Zealand
2. Fachbereich Chemie Philipps‐Universität Marburg Marburg Germany
3. Niels Bohr Institute University of Copenhagen Copenhagen Denmark
Abstract
Fullerenes are carbon molecules that form polyhedral cages. Their bond structures are exactly the planar cubic graphs that have only pentagon and hexagon faces. Strikingly, a number of chemical properties of a fullerene can be derived from its graph structure. A rich mathematics of cubic planar graphs and fullerene graphs has grown since they were studied by Goldberg, Coxeter, and others in the early 20th century, and many mathematical properties of fullerenes have found simple and beautiful solutions. Yet many interesting chemical and mathematical problems in the field remain open. In this paper, we present a general overview of recent topological and graph theoretical developments in fullerene research over the past two decades, describing both solved and open problems. WIREs Comput Mol Sci 2015, 5:96–145. doi: 10.1002/wcms.1207This article is categorized under:
Structure and Mechanism > Molecular Structures
Computer and Information Science > Chemoinformatics
Computer and Information Science > Computer Algorithms and Programming
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