Reversible Solution π-Dimerization and Long Multicenter Bonding in a Stable Phenoxyl Radical

Nico M. Bonanno; Prashanth K. Poddutoori; Kazunobu Sato; Kenji Sugisaki; Takeji Takui; Alan J. Lough; Martin T. Lemaire

doi:10.1002/chem.201802204

Reversible Solution π-Dimerization and Long Multicenter Bonding in a Stable Phenoxyl Radical

Nico M. Bonanno, Prashanth K. Poddutoori, Kazunobu Sato, Kenji Sugisaki, Takeji Takui, Alan J. Lough, Martin T. Lemaire

Chemistry & Biochemistry

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Abstract

Reversible solution π-dimerization is observed in the stable neutral phenoxyl radical 2,6-bis-(8-quinolylamino)-4-(tert-butyl)phenoxyl baqp and is spectroscopically characterized. This behavior, not previously observed for π-extended phenoxyl radicals, is relevant to the formation of long multicenter bonding in the π-dimer at low temperature akin to previously reported phenalenyl radicals. Our experimental data are supported in a quantitative manner by results from density functional theory (DFT) and ab initio molecular orbital theory calculations. Our theoretical results indicate that the solution dimer features strong bonding interactions between the two phenoxyl rings but that the stability of the dimer is also related to dispersion interactions between the flanking nearly parallel quinolyl rings.

Original language	English (US)
Pages (from-to)	14906-14910
Number of pages	5
Journal	Chemistry - A European Journal
Volume	24
Issue number	56
DOIs	https://doi.org/10.1002/chem.201802204
State	Published - Oct 9 2018

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© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

Keywords

density functional calculations
molecular devices
multicenter bonding
stable radicals
π-dimerization

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title = "Reversible Solution π-Dimerization and Long Multicenter Bonding in a Stable Phenoxyl Radical",

abstract = "Reversible solution π-dimerization is observed in the stable neutral phenoxyl radical 2,6-bis-(8-quinolylamino)-4-(tert-butyl)phenoxyl baqp and is spectroscopically characterized. This behavior, not previously observed for π-extended phenoxyl radicals, is relevant to the formation of long multicenter bonding in the π-dimer at low temperature akin to previously reported phenalenyl radicals. Our experimental data are supported in a quantitative manner by results from density functional theory (DFT) and ab initio molecular orbital theory calculations. Our theoretical results indicate that the solution dimer features strong bonding interactions between the two phenoxyl rings but that the stability of the dimer is also related to dispersion interactions between the flanking nearly parallel quinolyl rings.",

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T1 - Reversible Solution π-Dimerization and Long Multicenter Bonding in a Stable Phenoxyl Radical

AU - Bonanno, Nico M.

AU - Poddutoori, Prashanth K.

AU - Sato, Kazunobu

AU - Sugisaki, Kenji

AU - Takui, Takeji

AU - Lough, Alan J.

AU - Lemaire, Martin T.

PY - 2018/10/9

Y1 - 2018/10/9

N2 - Reversible solution π-dimerization is observed in the stable neutral phenoxyl radical 2,6-bis-(8-quinolylamino)-4-(tert-butyl)phenoxyl baqp and is spectroscopically characterized. This behavior, not previously observed for π-extended phenoxyl radicals, is relevant to the formation of long multicenter bonding in the π-dimer at low temperature akin to previously reported phenalenyl radicals. Our experimental data are supported in a quantitative manner by results from density functional theory (DFT) and ab initio molecular orbital theory calculations. Our theoretical results indicate that the solution dimer features strong bonding interactions between the two phenoxyl rings but that the stability of the dimer is also related to dispersion interactions between the flanking nearly parallel quinolyl rings.

AB - Reversible solution π-dimerization is observed in the stable neutral phenoxyl radical 2,6-bis-(8-quinolylamino)-4-(tert-butyl)phenoxyl baqp and is spectroscopically characterized. This behavior, not previously observed for π-extended phenoxyl radicals, is relevant to the formation of long multicenter bonding in the π-dimer at low temperature akin to previously reported phenalenyl radicals. Our experimental data are supported in a quantitative manner by results from density functional theory (DFT) and ab initio molecular orbital theory calculations. Our theoretical results indicate that the solution dimer features strong bonding interactions between the two phenoxyl rings but that the stability of the dimer is also related to dispersion interactions between the flanking nearly parallel quinolyl rings.

KW - density functional calculations

KW - molecular devices

KW - multicenter bonding

KW - stable radicals

KW - π-dimerization

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Reversible Solution π-Dimerization and Long Multicenter Bonding in a Stable Phenoxyl Radical

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