Spectroscopic Observation of the Triplet Diradical State of a Cyclobutadiene

Kostenko, Arseni; Tumanskii, B. L.; Kobayashi, Yuzuru; Nakamoto, Masaaki; Sekiguchi, Akira; Apeloig, Yitzhak

doi:10.1002/ange.201705228

Cited by 18 publications

(11 citation statements)

References 56 publications

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“…According to the 4 N π‐electrons Baird rule, monocyclic conjugated hydrocarbons of D nh symmetry that are antiaromatic in their singlet ground state are aromatic in their lowest‐lying triplet state, and vice versa for those that are aromatic in the ground state. Recent spectroscopic observation of the triplet diradical state of cyclobutadiene gave further support to this rule . It is worth mentioning that, as an extension to this Baird rule, it has been proved that the singlet excited state with the same electronic configuration of the lowest‐lying triplet state of annulenes with 4 N π‐electrons is also aromatic …”

Section: A Historical Overview Of Aromaticity Rulesmentioning

confidence: 83%

Connecting and combining rules of aromaticity. Towards a unified theory of aromaticity

Solà

2018

WIREs Comput Mol Sci

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Most of the archetypal aromatic compounds present high symmetry and have degenerate highest‐occupied molecular orbitals. These orbitals can be fully occupied resulting in a closed‐shell structure or can be same‐spin half‐filled. This closed‐shell or same‐spin half‐filled electronic structure provides an extra stabilization and it is the origin of several rules of aromaticity such as the Hückel 4N + 2 rule, the lowest‐lying triplet excited state 4N Baird rule, the 4N rule in Möbius‐type conformation, the 4N + 2 Wade–Mingos rule in closo boranes or the 2(N + 1)2 Hirsch rule in spherical aromatic species. Combinations of some of these rules of aromaticity can be found in some particular species. Examples of these combinations will be discussed and the validity of some of these rules will be assessed. Moreover, it is possible to establish connections with some of these rules of (anti)aromaticity and, therefore, they can be partially generalized, which represents a step forward to a future unified theory of aromaticity. This article is categorized under: Electronic Structure Theory > Ab Initio Electronic Structure Methods Electronic Structure Theory > Density Functional Theory Software > Quantum Chemistry

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Section: A Historical Overview Of Aromaticity Rulesmentioning

confidence: 83%

Connecting and combining rules of aromaticity. Towards a unified theory of aromaticity

Solà

2018

WIREs Comput Mol Sci

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“…Electron paramagnetic resonance (EPR) spectroscopy studies on a substituted CBD at elevated temperatures in the solid state suggest that the triplet excited state is accessible thermally. 133 As mentioned before, expressed using the delocalized e g MOs in Figure 18, the lowest singlet state of the square CBD has a "closed-shell" two-configuration wave function,…”

Section: Diradicals and Diradical(oid)s Of Classes 1 And 2: Cyclobuta...mentioning

confidence: 90%

Do Diradicals Behave Like Radicals?

et al. 2019

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This review sets out to understand the reactivity of diradicals and how that may differ from monoradicals. In the first part of the review, we delineate the electronic structure of a diradical with its two degenerate or nearly degenerate molecular orbitals, occupied by two electrons. A classification of diradicals based on whether or not the two SOMOs can be located on different sites of the molecule is useful in determining the ground state spin. Important is a delocalized to localized orbital transformation that interchanges “closed-shell” to “open-shell” descriptions. The resulting duality is useful in understanding the dual reactivity of singlet diradicals. In the second part of the review, we examine, with a consistent level of theory, activation energies of prototypical radical reactions (dimerization, hydrogen abstraction, and addition to ethylene) for representative organic diradicals and diradicaloids in their two lowest spin states. Differences and similarities in reactivity of diradicals vs monoradicals, based on either a localized or delocalized view, whichever is suitable, are then discussed. The last part of this review begins with an extensive, comparative, and critical survey of available measures of diradical character and ends with an analysis of the consequences of diradical character for selected diradicaloids.

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“…14 It was also recently demonstrated by EPR studies that the triplet state of a tetrasubstituted CBD is square and ∼14 kcal/mol higher in energy than its square singlet TS. 15 The reactivity of CBD can be simply understood by the BBAH. Structure 3 corresponds to 3a (a formal bond representation of 3) and to 3b upon antiperiplanar delocalization of one of the equivalent radicals, as shown in Scheme 3.…”

Section: ■ Introductionmentioning

confidence: 99%

“…This analysis is in agreement with the computational results, which suggests that the cycloreversion proceeds via two consecutive C−C bond cleavages. 15 Benzene (C 6 H 6 ). We previously reported 1 that the aromaticity of benzene could be rationalized by invoking antiperiplanar displacements of pyramidal diradicals with their adjacent τ bonds (Scheme 8).…”

Section: ■ Introductionmentioning

confidence: 99%

Bent Bond/Antiperiplanar Hypothesis and the Chemical Reactivity of Annulenes

Deslongchamps

2020

J. Org. Chem.

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The properties and stereochemical reactivity of cyclobutadiene, benzene, cyclooctatetraene, and the [10]-to [14]annulenes can be uniformly rationalized through the bent bond/antiperiplanar hypothesis (BBAH). This new orbital model considers electronic delocalization between pyramidal diradical resonance structures and associated bent bonds, as it applies to aromatic, nonaromatic, and antiaromatic molecules.

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Spectroscopic Observation of the Triplet Diradical State of a Cyclobutadiene

Cited by 18 publications

References 56 publications

Connecting and combining rules of aromaticity. Towards a unified theory of aromaticity

Connecting and combining rules of aromaticity. Towards a unified theory of aromaticity

Do Diradicals Behave Like Radicals?

Bent Bond/Antiperiplanar Hypothesis and the Chemical Reactivity of Annulenes

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