Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect

Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect

It is well known that singlet state aromaticity is quite insensitive to substituent effects, in the case of monosubstitution. In this work, we use density functional theory (DFT) calculations to examine the sensitivity of triplet state aromaticity to substituent effects. For this purpose, we chose t...

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Main Authors: Milovan Stojanović, Jovana Aleksić, Marija Baranac-Stojanović
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Chemistry
Subjects:
antiaromaticity
aromaticity
singlet state
triplet state
cyclopentadienyl cation
substituent effect
Online Access:https://www.mdpi.com/2624-8549/3/3/55
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spelling doaj-c3e65303fa2b4233afcbeaad77d345ff2021-09-25T23:54:04ZengMDPI AGChemistry2624-85492021-07-0135576578210.3390/chemistry3030055Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent EffectMilovan Stojanović0Jovana Aleksić1Marija Baranac-Stojanović2Institute of Chemistry, Technology and Metallurgy, Center for Chemistry, University of Belgrade, Njegoševa 12, P.O. Box 173, 11000 Belgrade, SerbiaInstitute of Chemistry, Technology and Metallurgy, Center for Chemistry, University of Belgrade, Njegoševa 12, P.O. Box 173, 11000 Belgrade, SerbiaFaculty of Chemistry, University of Belgrade, Studentski trg 12-16, P.O. Box 158, 11000 Belgrade, SerbiaIt is well known that singlet state aromaticity is quite insensitive to substituent effects, in the case of monosubstitution. In this work, we use density functional theory (DFT) calculations to examine the sensitivity of triplet state aromaticity to substituent effects. For this purpose, we chose the singlet state antiaromatic cyclopentadienyl cation, antiaromaticity of which reverses to triplet state aromaticity, conforming to Baird’s rule. The extent of (anti)aromaticity was evaluated by using structural (HOMA), magnetic (NICS), energetic (ISE), and electronic (EDDB<sub>p</sub>) criteria. We find that the extent of triplet state aromaticity of monosubstituted cyclopentadienyl cations is weaker than the singlet state aromaticity of benzene and is, thus, slightly more sensitive to substituent effects. As an addition to the existing literature data, we also discuss substituent effects on singlet state antiaromaticity of cyclopentadienyl cation.https://www.mdpi.com/2624-8549/3/3/55antiaromaticityaromaticitysinglet statetriplet statecyclopentadienyl cationsubstituent effect
collection DOAJ
language English
format Article
sources DOAJ
author Milovan Stojanović
Jovana Aleksić
Marija Baranac-Stojanović
spellingShingle Milovan Stojanović
Jovana Aleksić
Marija Baranac-Stojanović
Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
Chemistry
antiaromaticity
aromaticity
singlet state
triplet state
cyclopentadienyl cation
substituent effect
author_facet Milovan Stojanović
Jovana Aleksić
Marija Baranac-Stojanović
author_sort Milovan Stojanović
title Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
title_short Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
title_full Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
title_fullStr Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
title_full_unstemmed Singlet/Triplet State Anti/Aromaticity of CyclopentadienylCation: Sensitivity to Substituent Effect
title_sort singlet/triplet state anti/aromaticity of cyclopentadienylcation: sensitivity to substituent effect
publisher MDPI AG
series Chemistry
issn 2624-8549
publishDate 2021-07-01
description It is well known that singlet state aromaticity is quite insensitive to substituent effects, in the case of monosubstitution. In this work, we use density functional theory (DFT) calculations to examine the sensitivity of triplet state aromaticity to substituent effects. For this purpose, we chose the singlet state antiaromatic cyclopentadienyl cation, antiaromaticity of which reverses to triplet state aromaticity, conforming to Baird’s rule. The extent of (anti)aromaticity was evaluated by using structural (HOMA), magnetic (NICS), energetic (ISE), and electronic (EDDB<sub>p</sub>) criteria. We find that the extent of triplet state aromaticity of monosubstituted cyclopentadienyl cations is weaker than the singlet state aromaticity of benzene and is, thus, slightly more sensitive to substituent effects. As an addition to the existing literature data, we also discuss substituent effects on singlet state antiaromaticity of cyclopentadienyl cation.
topic antiaromaticity
aromaticity
singlet state
triplet state
cyclopentadienyl cation
substituent effect
url https://www.mdpi.com/2624-8549/3/3/55
work_keys_str_mv AT milovanstojanovic singlettripletstateantiaromaticityofcyclopentadienylcationsensitivitytosubstituenteffect
AT jovanaaleksic singlettripletstateantiaromaticityofcyclopentadienylcationsensitivitytosubstituenteffect
AT marijabaranacstojanovic singlettripletstateantiaromaticityofcyclopentadienylcationsensitivitytosubstituenteffect
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