Nonalternant Nanographenes Containing N-Centered Cyclopenta[<i>ef</i>]heptalene and Aza[7]Helicene Units

Qiu, Shuhai; Valdivia, Abel Cárdenas; Zhuang, Weiwen; Hung, Faan-Fung; Che, Chi-Ming; Casado, Juan; Liu, Junzhi

doi:10.1021/jacs.4c03815

Cited by 7 publications

(1 citation statement)

References 68 publications

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“…However, the g lum value of B has not been reported in the literature. The “laterally π-extended helicenes”, with simultaneous lateral and longitudinal extensions of the helical structures, or 3D π-extended helicenes have shown to have higher values of g lum than their parent single-stranded helicene derivatives. − The impressive π-extended pentadecabenzo[9]helicene (Figure a, C ) exhibited a g lum value of 0.045 (Φ PL = 0.10); however, its g abs value was approximately 0.0276. For these large “superhelicene” systems, a concurrent increase of the g abs and g lum values is challenging, and simultaneously achieving a high Φ PL in a single helicene is difficult.…”

Section: Introductionmentioning

confidence: 99%

Benzo-Extended Heli(aminoborane)s: Inner Rim BN-Doped Helical Molecular Carbons with Remarkable Chiroptical Properties

Yu,

Wang,

Hung

et al. 2024

J. Am. Chem. Soc.

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Atomically precise synthesis of three-dimensional boron−nitrogen (BN)-based helical structures constitutes an undeveloped field with challenges in synthetic chemistry. Herein, we synthesized and comprehensively characterized a new class of helical molecular carbons, named benzo-extended [n]heli(aminoborane)s ([n]HABs), in which the helical structures consisted of n = 8 and n = 10 ortho-condensed conjugated rings with alternating BN atoms at the inner rims. X-ray crystallographic analysis, photophysical studies, and density functional theory calculations revealed the unique characteristics of this novel [n]HAB system. Owing to the high enantiomerization energy barriers, the optical resolution of [8]HAB and [10]HAB was achieved with chiral high-performance liquid chromatography. The isolated enantiomers of [10]HAB exhibited record absorption and luminescence dissymmetry factors (|g abs |=0.061; |g lum | =0.048), and boosted CPL brightness up to 292 M −1 cm −1 , surpassing most helicene derivatives, demonstrating that the introduction of BN atoms into the inner positions of helicenes can increase both the |g abs | and |g lum | values.

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Section: Introductionmentioning

confidence: 99%

Benzo-Extended Heli(aminoborane)s: Inner Rim BN-Doped Helical Molecular Carbons with Remarkable Chiroptical Properties

Yu,

Wang,

Hung

et al. 2024

J. Am. Chem. Soc.

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Hexabenzoperylene‐Cored Double Thiahelicenes with Strong Luminescence

Ma,

Zhou,

Tan

et al. 2024

Advanced Optical Materials

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Thiahelicenes, an important subclass of helicenes, are renowned for their pronounced chiroptical properties, particularly circular dichroism. However, the exploration of their circularly polarized luminescence (CPL) has been hindered due to their inherently weak fluorescence, leaving a critical gap in the development of thiahelicenes as efficient CPL emitters. To address this limitation, a novel strategy for enhancing the luminescence of thiahelicenes by integrating thiophene‐containing units with a highly emissive hexabenzoperylene (HBP) core is presented. Two isomeric HBP‐cored double thiahelicenes are synthesized, which serve as proof of concept. These molecules exhibit exceptionally high fluorescence quantum yields (ΦF = 83% and 91%), surpassing all previously reported thiahelicenes. Furthermore, their luminescence dissymmetry factors show a four‐fold enhancement compared to the parent HBP, resulting in a remarkable CPL brightness of up to 84.9 M−1 cm−1. These findings not only address the fluorescence limitation of thiahelicenes but also establish a new pathway for developing high‐performance CPL materials.

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A Carbazole‐Centered Expanded Helicene Stabilized with Hexabenzocoronene (HBC) Units

Wang,

Bai,

Shen

et al. 2024

Angewandte Chemie

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The synthesis and stabilization of heteroatom‐doped nanocarbon molecules, such as carbazole‐containing (super)helicenes, present significant challenges due to the complexities involved in maintaining structural integrity and electronic functionality. In this study, we successfully synthesized a carbazole‐centered expanded tris‐hexabenzo[7]helicene (1) via a facile FeCl3‐mediated Scholl coupling reaction. 1 exhibits both chemical and chiral stability and demonstrates fluorescence at 628 nm with a quantum yield of 0.40. Additionally, the enantiomers of 1 display pronounced chiroptical properties, including a distinct circular dichroism (CD) signal spanning from 300 to 600 nm. The absorption dissymmetry factor (|gabs|) is determined to be 2.98 × 10−3, while the circularly polarized luminescence brightness (BCPL) is measured as 32.50 M−1 cm−1.

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Nonalternant Nanographenes Containing N-Centered Cyclopenta[ef]heptalene and Aza[7]Helicene Units

Cited by 7 publications

References 68 publications

Benzo-Extended Heli(aminoborane)s: Inner Rim BN-Doped Helical Molecular Carbons with Remarkable Chiroptical Properties

Benzo-Extended Heli(aminoborane)s: Inner Rim BN-Doped Helical Molecular Carbons with Remarkable Chiroptical Properties

Hexabenzoperylene‐Cored Double Thiahelicenes with Strong Luminescence

A Carbazole‐Centered Expanded Helicene Stabilized with Hexabenzocoronene (HBC) Units

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