6,6′-Biindeno[1,2-<i>b</i>]anthracene: An Open-Shell Biaryl with High Diradical Character

Xu, Xiushang; Takebayashi, Satoshi; Hanayama, Hiroki; Vasylevskyi, Serhii; Onishi, Takatsugu; Ohto, Tatsuhiko; Tada, Hayato; Narita, Akimitsu

doi:10.1021/jacs.2c13890

Cited by 14 publications

(9 citation statements)

References 60 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Initially, at room temperature, the characteristic half-field transition of Δ m s = ±2 was not detected in these compounds. This observation aligns with behaviors seen in other disjointed main-group biradicals, characterized by large interspin distances and minimal zero-field splitting (ZFS) parameters . In such cases, the half-field transition intensity inversely correlates with the sixth power of the interspin distance ( I (Δ m s = ±2) ∝ r –6 ).…”

Section: Resultssupporting

confidence: 90%

Unlocking Biradical Character in Diborepins

Hollister,

Molino,

Jones

et al. 2024

J. Am. Chem. Soc.

View full text Add to dashboard Cite

Systems that possess open- and closed-shell behavior attract significant attention from researchers due to their inherent redox and charge transport properties. Herein, we report the synthesis of the first diborepin biradicals. They display tunable biradical character based on the steric and electronic profile of the stabilizing ligand and the resulting geometric deviation of the diborepin core from planarity. While there are numerous all-carbon-based biradical systems, boron-based biradical compounds are comparatively rare, particularly ones in which the radical sites are disjointed. Calculations using density functional theory (DFT) and multireference methods demonstrate that the fused diborepin scaffold exhibits high biradical character, up to 95%. Use of a nonsterically demanding diaminocarbene promotes the planarization of the pentacyclic framework, resulting in the synthetic realization of a diborepin containing a dibora-quinoidal core, which possesses a closed-shell ground state and thermally accessible triplet state. The biradicals were structurally authenticated and characterized by both solution and solid-state electron paramagnetic resonance (EPR) spectroscopy. Half-field transitions were observed at low temperatures (about 170 K), confirming the presence of the triplet state. Initial reactivity studies of the biradicals led to the isolation and structural characterization of bis(borepin hydride) and bis(borepin dianion).

show abstract

Section: Resultssupporting

confidence: 90%

Unlocking Biradical Character in Diborepins

Hollister,

Molino,

Jones

et al. 2024

J. Am. Chem. Soc.

View full text Add to dashboard Cite

show abstract

“…The paramagnetic nature of 4 was confirmed by solution and solid-state EPR spectroscopy (Figure ). In THF, the EPR spectrum of 4 displays a single broad signal centered at g = 2.004, with no observable hyperfine splitting, in agreement with EPR spectra observed for carbon-based PAH biradical systems. ,, The powder EPR spectrum of 4 displays low and high field transitions (Δ m s = ±1) characteristic of organic spin triplets ( S = 1), coinciding with a central transition determined through simulation to be a monoradical ( S = ) impurity originating from a single N– carbene C–B spin system . The assignment of this impurity is consistent with our previously reported CAAC-stabilized borepin and borafluorene radicals, where the spin system is localized to the N– carbene C–B moiety. , The point-dipole approximation employing the simulated zero-field splitting parameter | D′ | (2.62 mT) determined an average interspin distance of 10.2 Å, consistent with crystallographic measurements indicating a distance of approximately 9.57 Å between the centroids of the two N– carbene C–B fragments.…”

Section: Resultssupporting

confidence: 71%

“…Conversion of 1 into diradical 4 leads to a bathochromic shift in absorbance. Compound 4 exhibits low energy absorption features at 520 and 472 nm which resemble the low-lying singlet excited states typical for singlet biradicaloids and are suggested to originate from a doubly excited electronic configuration …”

Section: Resultsmentioning

confidence: 98%

“…Most of the reported boron-doped PAHs can be characterized by a closed-shell electron configuration. − In contrast, boron-doped PAHs exhibiting an open-shell singlet configuration are rare (Figure f,g). , This biradical character emerges only when the biradical resonance structure overcomes the “classical” closed-shell preference due to a combination of strong electronic factors and stabilization energy. − The stability and reactivity of closed-shell PAHs can be determined by the number of aromatic π-sextet rings they possess (i.e., Clar’s aromatic sextet rule). , Benzenoid PAHs with the same chemical composition with more aromatic sextet rings are more stable and less reactive. In contrast, for open-shell biradical species, the biradical character (γ) increases significantly as more aromatic sextet rings form .…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Bis(9-Boraphenanthrene) and Its Stable Biradical

Sarkar,

Hollister,

Molino

et al. 2023

J. Am. Chem. Soc.

View full text Add to dashboard Cite

Selective and site-specific boron-doping of polycyclic aromatic hydrocarbon frameworks often give rise to redox and/or photophysical properties that are not easily accessible with the analogous all-carbon systems. Herein, we report ligand-mediated control of boraphenanthrene closed-and open-shell electronic states, which has led to the first structurally characterized examples of neutral bis(9boraphenanthrene) (2−3) and its corresponding biradical (4). Notably, compounds 2 and 3 show intramolecular charge transfer absorption from the 9-boraphenanthrene units to p-quinodimethane, exhibiting dual (redshifted) emission in solution due to excited state conjugation enhancement (ESCE). Moreover, while boron-centered monoradicals are ubiquitous, biradical 4 represents a rare type of open-shell singlet compound with 95% biradical character, among the highest of any reported boron-based polycyclic species with two radical sites.

show abstract

“…There was no sign of isomerization to the folded form (Scheme 29). 115 Furthermore, for the biradical form of 33, both the singlet and triplet states were obtained as energyminimized structures by DFT calculation (CASSCF(12e,12o)/ def2-TZVPP) with the triplet state as a ground state. The VT-ESR study showed that the signal intensity of ΔM s = ±2 increased with a decrease in temperature, thus demonstrating a triplet ground state.…”

Section: Biradical Perpendicular Form Derived From An Extended Anthra...mentioning

confidence: 99%

Carbon-based Biradicals: Structural and Magnetic Switching

Ishigaki,

Harimoto,

Shimajiri

et al. 2023

Chem. Rev.

View full text Add to dashboard Cite

Sterically hindered C�C double bonds often deform into a bent or twisted geometry. Thus, many overcrowded ethylenes or anthraquinodimethanes can adopt multiple conformations, such as a folded form or a twisted form, which are interconvertible under the application of external stimuli. A perpendicular form with biradical character can also be adopted when designed to incorporate a stable carbon-based radical unit, which is involved in stimuliresponsive magnetic switching accompanied by a structural change. This review focuses on recent advances in the development of such strained π-electron systems and reveals the factors that affect the mutual interconversion and switching behavior. The energy barrier for the interconversion of conformational isomers is affected by the tricyclic skeleton or bulky substituents on the C�C double bonds, whereas the relative stability of the perpendicular biradical form increases with the additional insertion of 9,10-anthrylene units into the C�C double bonds. CONTENTS 1. Introduction 13952 2. Difference between the Open-shell Perpendicular Form and the Closed-shell Twisted Form 13953 3. Interconversion between the Biradical Perpendicular Form and Closed-shell Twisted Form of Overcrowded Ethylene 13955 4. Interconversion between the Biradical Perpendicular Form and Closed-shell Folded Form of Anthraquinodimethanes 13956 5. Biradical Perpendicular Form Derived from the Closed-shell Folded Form of Bianthraquinodimethanes 13958 6. Stable Biradical Perpendicular Form with an Oligo(9,10-anthrylene) Unit 13960 7. Biradical Perpendicular Form

show abstract

6,6′-Biindeno[1,2-b]anthracene: An Open-Shell Biaryl with High Diradical Character

Cited by 14 publications

References 60 publications

Unlocking Biradical Character in Diborepins

Unlocking Biradical Character in Diborepins

Bis(9-Boraphenanthrene) and Its Stable Biradical

Carbon-based Biradicals: Structural and Magnetic Switching

Contact Info

Product

Resources

About