Aromaticity of ortho and meta 8‐Cycloparaphenylene and Their Dications: Induced Magnetic Field Analysis with Localized and Delocalized Orbitals in Strained Nanohoops

Dications of cycloparaphenyles ([n]CPPs) are known to exhibit in‐plane global aromaticity, contained in a nanobelt structure. Recently synthesized ortho and meta isomers of [n]CPPs break the radial symmetry of π structure incorporating perpendicular oriented π orbitals. Herein we set to explore the...

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Veröffentlicht in:	Chemphyschem 2021-04, Vol.22 (8), p.741-751
Hauptverfasser:	Lingas, Rafael, Charistos, Nickolas D., Muñoz‐Castro, Alvaro
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Sprache:	eng
Schlagworte:	Aromaticity cycloparaphenylenes induced magnetic field Isomers macrocycles Magnetic fields MO analysis Molecular orbitals Symmetry
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creator	Lingas, Rafael Charistos, Nickolas D. Muñoz‐Castro, Alvaro
description	Dications of cycloparaphenyles ([n]CPPs) are known to exhibit in‐plane global aromaticity, contained in a nanobelt structure. Recently synthesized ortho and meta isomers of [n]CPPs break the radial symmetry of π structure incorporating perpendicular oriented π orbitals. Herein we set to explore the aromaticity of neutral and dicationic ortho and meta isomers of [8]CPP by dissecting the induced magnetic field to contributions of the twofold radial/perpendicular π system using delocalized canonical molecular orbitals (CMO), and introducing the natural localized molecular orbitals (NLMO) analysis with DFT methods. The dications sustain a reduced global aromatic character of the radial π system under a perpendicular orientation of the external field which declines from ortho to meta isomer and reinforces local aromaticity of ortho ring while it destroys aromaticity of meta ring. Aromaticity variations are determined by symmetry governed rotational excitations of frontier π orbitals. The parallel orientation reveals a substantial reduction of local aromaticity verified with NICSπ analysis and electron delocalization indices. How aromatic? Ortho and meta isomers of the 8‐clycloparaphenylene dication retain a decreasing global aromatic character of the twofold radial‐perpendicular π system, while local aromaticity is augmented in the ortho ring and becomes antiaromatic in meta ring.
doi_str_mv	10.1002/cphc.202100057
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Recently synthesized ortho and meta isomers of [n]CPPs break the radial symmetry of π structure incorporating perpendicular oriented π orbitals. Herein we set to explore the aromaticity of neutral and dicationic ortho and meta isomers of [8]CPP by dissecting the induced magnetic field to contributions of the twofold radial/perpendicular π system using delocalized canonical molecular orbitals (CMO), and introducing the natural localized molecular orbitals (NLMO) analysis with DFT methods. The dications sustain a reduced global aromatic character of the radial π system under a perpendicular orientation of the external field which declines from ortho to meta isomer and reinforces local aromaticity of ortho ring while it destroys aromaticity of meta ring. Aromaticity variations are determined by symmetry governed rotational excitations of frontier π orbitals. The parallel orientation reveals a substantial reduction of local aromaticity verified with NICSπ analysis and electron delocalization indices. How aromatic? 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The parallel orientation reveals a substantial reduction of local aromaticity verified with NICSπ analysis and electron delocalization indices. How aromatic? 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subjects	Aromaticity cycloparaphenylenes induced magnetic field Isomers macrocycles Magnetic fields MO analysis Molecular orbitals Symmetry
title	Aromaticity of ortho and meta 8‐Cycloparaphenylene and Their Dications: Induced Magnetic Field Analysis with Localized and Delocalized Orbitals in Strained Nanohoops
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