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A theoretical study of fullerene–ferrocene hybrids

✍ Scribed by Hong Seok Kang

Publisher
John Wiley and Sons
Year
2006
Tongue
English
Weight
419 KB
Volume
28
Category
Article
ISSN
0192-8651

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✦ Synopsis

Abstract

Using density functional theory within the generalized gradient approximation, I analyzed the electronic structure of a C~60~–ferrocene hybrid [= C FeCp] around HOMO in comparison with that of ferrocene, where C and Cp denote C~60~(CH~3~)~5~ and a cyclopentadienyl ring. HOMO–LUMO gap is significantly smaller than that of ferrocene because of the intervention of π(C) states below LUMO. In addition, geometrical and electronic structures of N@C FeCp are also investigated. I find that there are two isomers with the energy difference of 0.13 eV. In one of the two, the encased nitrogen atom is located at the center of the fullerene cage. The Fe atom is η^5^‐coordinated to both Cp and R*, where R* is a five‐membered ring of C cage. On the other hand, the atom is coordinated to R* with η^4^‐hapticity, and the nitrogen atom is bonded to a carbon atom of the R* ring in the other isomer. Upon the isomerization between the two isomers, there occurs a partial transfer of spin density between the nitrogen and Fe atoms as well as the creation and breaking of a CN bond. © 2006 Wiley Periodicals, Inc. J Comput Chem 28: 594–600, 2007

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