Three‐Dimensional Intramolecular Exchange Interaction in a Curved and Nonalternant π‐Conjugated System: Corannulene with Two Phenoxyl Radicals

Ueda, Akira; Nishida, Shinsuke; Fukui, Kozo; Ise, Tomoaki; Shiomi, Daisuke; Sato, Kazunobu; Takui, Takeji; Nakasuji, Kazuhiro

doi:10.1002/ange.200906666

Cited by 38 publications

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“…The 1 H NMR spectra of cations 1-3 demonstrate the significantly high-field-shifted resonance signals for the CH x Cl 3Àx groups (0.12 ppm, 2.08 ppm, and 4.01 ppm for 1, 2, and 3, respectively) compared to those of CH 3 (Table 2). These values compare well with those found in the 13 C NMR spectra of C 70 -CHCl 2 + (198 ppm, in CF 3 SO 3 H) [6b] and in the protonated form of C 60 (182 ppm, 1,2-C 6 H 4 Cl 2 ). [12] The slight high-field shifts of the C3 resonances of the chlorinated cations 2-4 compared to that of 1 can most probably be attributed to the interaction of unshared electron pairs at the Cl atoms of the R groups with the cationic C3 center.…”

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confidence: 79%

“…[5] The authors ingeniously identified species formed in solution and assigned their molecular structures based on 1 H NMR studies of the reaction mixtures. Despite the initial progress, further elaboration proved to be unsuccessful (including recording 13 C NMR data), and the preparation and structural characterization of bulk solid products have not been reported to date. The latter task can be very challenging because of the extreme reactivity of the resulting cationic species.…”

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confidence: 94%

“…[6] Subsequent hydrolysis of these products under superacidic conditions led to the observation of the alkylated fullerene cations that had much longer lifetimes than the bowl-shaped cations, thus allowing 13 C NMR spectra to be recorded, although no structural studies of these species was undertaken. The solid-state structure of a fullerene cation has been elucidated from the X-ray diffraction characterization of C 60 (AsF 6 ) 2 , which was prepared in a high-pressure vessel by direct reaction of C 60 and AsF 5 in SO 2 .…”

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confidence: 99%

“…The excellent delocalization ability of the nonplanar surface of corannulene was also recently demonstrated for radicals. [13] In conclusion, site-specific alkylation of the curved corannulene surface under Friedel-Crafts reaction conditions resulted in bowl-shaped arenium carbocations, which were isolated as pure bulk crystalline solids with [AlCl 4 ]…”

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A Strain‐Releasing Trap for Highly Reactive Electrophiles: Structural Characterization of Bowl‐Shaped Arenium Carbocations

et al. 2011

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Trap for electrophiles: The reaction of corannulene with halogenated hydrocarbons in the presence of AlCl3 gave the products of an electrophilic attack on the hub carbon atom of the curved aromatic surface (see picture). The X‐ray diffraction characterization of a series of bowl‐shaped cations illustrates structural deformations caused by the site‐directed interior surface functionalization.

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confidence: 94%

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A Strain‐Releasing Trap for Highly Reactive Electrophiles: Structural Characterization of Bowl‐Shaped Arenium Carbocations

et al. 2011

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“…[28] It is noteworthy that the helical chirality is also important for implementing photon-linked matter qubits in quantum information processing. [15] Our ongoing studies on the (oligo)imidazole-based helicates; preparation of magnetically diluted chiral crystals for synthetic electron-spin qubits, synthesis of novel helicates composed of longer (oligo)imidazoles, f-block helicates, and heteromultimetallic helicates, and functionalization by the introduction of redox-active substituents and electronic-spin-delocalized neutral radical systems, [29] are in progress.…”

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Solution‐Stable Triple Helicates of Quaterimidazole: Three‐Dimensional Crystal Structures and Optical Resolution by Chiral‐Column HPLC

et al. 2011

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Complex formation of quaterimidazole with FeII, CoII, and NiII yielded dinuclear triple helicates in the solution state by the self‐assembling ability of the ligand based on the strong chelating coordination bonds. Crystallization of the CoII complex from aqueous solution afforded the CoIII complex with a triple‐helical structure. X‐ray crystal structure analyses revealed that the helicates are linked through N–H···X hydrogen bonds with counteranions and solvent molecules to form three‐dimensional networks. The spectrophotometric titration experiment showed that quaterimidazole forms triple helicates with various d‐block transition metal ions with high selectivity. The outward intermolecular interactions and high stability of the helicates from the rigid molecular structures combined with the intramolecular π–π interactions of imidazole moieties and their strong chelating coordination enabled the successful optical resolution of right‐ and left‐handed helicates by chiral‐column HPLC.

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A Bowl‐Shaped ortho‐Semiquinone Radical Anion: Quantitative Evaluation of the Dynamic Behavior of Structural and Electronic Features

et al. 2010

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Organic radical ions play increasingly important roles in a wide range of research fields from biochemistry to materials science. [1] o-Semiquinone is a typical organic radical anion with multistage redox ability that can form chelate salts and complexes with many kinds of metal cations. Investigation of a variety of transition-metal complexes of o-semiquinone radical could help not only to increase general knowledge of their fundamental chemistry but also to develop functional materials based on valence tautomerism phenomena. [2,3] In contrast, the alkali-metal salts have been extensively studied, and much attention has been focused on the dynamic behavior of their structure and of the electronic features of the ion pair in solution. [4,5] Solution-phase ESR spectroscopy measurements of some alkali-metal salts show significant temperature dependence in their hyperfine coupling constants (hfccs). [4b,d] The origin of this behavior has been only qualitatively interpreted as temperature-dependent positional change or migration of the alkali-metal cation to the oxygen atoms of the o-semiquinone radical. [4e,h] A quantitative discussion of such dynamic behavior has not been carried out to date.Recently, we synthesized and isolated corannulene (1) [6] based stable neutral mono-and diradical derivatives with bowl-shaped non-alternant p-conjugated systems. [7] Their three-dimensional spin-delocalized nature and intra-and intermolecular magnetic interactions were experimentally illustrated in terms of geometrical and topological aspects. These studies have inspired us to design a novel bowl-shaped radical anion system 2C À based on corannulene with the osemiquinone moiety. Notably, 2C À is the first bowl-shaped semiquinone radical anion with non-alternant p conjugation. [8] Herein we report the synthesis of a sodium salt of 2C À (Na + ·2C À ), which is stable in an oxygen-free solution and even in the solid state under nitrogen atmosphere. Thanks to the high stability imparted by the bulky tert-butyl groups, we could evaluate 3D molecular and electronic structures of Na + ·2C À using the curvature and electronic spin and charge distribution by ESR spectroscopy and 1 H and 23 Na ENDOR/ TRIPLE measurements as well as by DFT calculations. We emphasize that the temperature dependence of the hfccs, related to the bowl-shaped structure, can for the first time allow for a quantitative discussion of the dynamic behavior of the ion pair in a solution of Na + ·2C À with the help of sophisticated DFT calculations. These studies demonstrate the salient structural and electronic features of a bowl-shaped semiquinone radical salt with the temperature-dependent positional change of a countercation, which originates in the concave-convex dynamics of the bowl-shaped skeleton.A synthetic route for Na + ·2C À is depicted in Scheme 1. Our modified experimental conditions of the reported penta-tertbutylation of 1 [9] gave tetra-tert-butyl corannulene 3 as the major product. By bromination and subsequent coupling reaction, [10] we obtained ...

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Three‐Dimensional Intramolecular Exchange Interaction in a Curved and Nonalternant π‐Conjugated System: Corannulene with Two Phenoxyl Radicals

Cited by 38 publications

References 38 publications

A Strain‐Releasing Trap for Highly Reactive Electrophiles: Structural Characterization of Bowl‐Shaped Arenium Carbocations

A Strain‐Releasing Trap for Highly Reactive Electrophiles: Structural Characterization of Bowl‐Shaped Arenium Carbocations

Solution‐Stable Triple Helicates of Quaterimidazole: Three‐Dimensional Crystal Structures and Optical Resolution by Chiral‐Column HPLC

A Bowl‐Shaped ortho‐Semiquinone Radical Anion: Quantitative Evaluation of the Dynamic Behavior of Structural and Electronic Features

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