A novel class of aromatic compounds: Metal-centered planar cations [Fe(Sb5)]+ and [Fe(Bi5)]+

Matthias Lein; Jan Frunzke; Gernot Frenking

doi:10.1002/anie.200390336

A novel class of aromatic compounds: Metal-centered planar cations [Fe(Sb₅)]⁺ and [Fe(Bi₅)]⁺

Matthias Lein, Jan Frunzke, Gernot Frenking

University of Marburg

Research output: Contribution to journal › Article › peer-review

66 Scopus citations

Abstract

Iron enters the pentagon: Quantum chemical calculations using gradient-corrected DFT predict that the cations [Fe(Sb₅)]⁺ and [Fe(Bi₅)]⁺ in the electronic singlet state have planar (D_5h) equilibrium geometries (see scheme). Analysis of the electronic structure shows that the molecules are metal-centered six-π-electron aromatic species with strong iron-ligand π bonds which involve the d(π) atomic orbitals of the Fe center and the degenerate π orbital of the ring. The calculated ⁵⁷Fe NMR chemical shifts indicate extremely high deshielding of the metal nucleus.

Original language	English
Pages (from-to)	1303-1306
Number of pages	4
Journal	Angewandte Chemie - International Edition
Volume	42
Issue number	11
DOIs	https://doi.org/10.1002/anie.200390336
State	Published - 17 Mar 2003
Externally published	Yes

Keywords

Antimony
Aromaticity
Bond theory
Density functional calculations
Iron

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abstract = "Iron enters the pentagon: Quantum chemical calculations using gradient-corrected DFT predict that the cations [Fe(Sb5)]+ and [Fe(Bi5)]+ in the electronic singlet state have planar (D5h) equilibrium geometries (see scheme). Analysis of the electronic structure shows that the molecules are metal-centered six-π-electron aromatic species with strong iron-ligand π bonds which involve the d(π) atomic orbitals of the Fe center and the degenerate π orbital of the ring. The calculated 57Fe NMR chemical shifts indicate extremely high deshielding of the metal nucleus.",

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AU - Frenking, Gernot

PY - 2003/3/17

Y1 - 2003/3/17

N2 - Iron enters the pentagon: Quantum chemical calculations using gradient-corrected DFT predict that the cations [Fe(Sb5)]+ and [Fe(Bi5)]+ in the electronic singlet state have planar (D5h) equilibrium geometries (see scheme). Analysis of the electronic structure shows that the molecules are metal-centered six-π-electron aromatic species with strong iron-ligand π bonds which involve the d(π) atomic orbitals of the Fe center and the degenerate π orbital of the ring. The calculated 57Fe NMR chemical shifts indicate extremely high deshielding of the metal nucleus.

AB - Iron enters the pentagon: Quantum chemical calculations using gradient-corrected DFT predict that the cations [Fe(Sb5)]+ and [Fe(Bi5)]+ in the electronic singlet state have planar (D5h) equilibrium geometries (see scheme). Analysis of the electronic structure shows that the molecules are metal-centered six-π-electron aromatic species with strong iron-ligand π bonds which involve the d(π) atomic orbitals of the Fe center and the degenerate π orbital of the ring. The calculated 57Fe NMR chemical shifts indicate extremely high deshielding of the metal nucleus.

KW - Antimony

KW - Aromaticity

KW - Bond theory

KW - Density functional calculations

KW - Iron

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A novel class of aromatic compounds: Metal-centered planar cations [Fe(Sb₅)]⁺ and [Fe(Bi₅)]⁺

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Keywords

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