Synthesis and Chiroptical Properties of Radially Extended Carbazole with Chiral [2.2]Paracyclophane Core

Hasegawa, Masashi; Xiao, Wanli; Ishida, Yuki; Asahi, Kazuyuki; Nishikawa, Hiroyuki; Ohno, Reo; Hayauchi, Daisuke; Hasegawa, Miki; Mazaki, Yasuhiro

doi:10.1002/adfm.202315215

Adv Funct Materials

2024

DOI: 10.1002/adfm.202315215

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Synthesis and Chiroptical Properties of Radially Extended Carbazole with Chiral [2.2]Paracyclophane Core

Masashi Hasegawa,

Wanli Xiao,

Yuki Ishida

et al.

Abstract: Abstract[2.2]Paracyclophanes ([2.2]PCs) with substituents at specific positions possesses planar chirality and stands as a promising building unit for the development of chiroptical materials associated with polarized light. However, one of the easily accessible starting materials, bromo‐substituted [2.2]PC, shows low reactivity, and effective methods for π‐extension of planar chiral [2.2]PC are limited. Herein, an effective π‐extension method has established for chiral [2.2]PC with four substitutions from 4,7… Show more

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Cited by 5 publications

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“…Despite the low dissymmetry factors of CD and CPL due to the inherently large transition electric dipole moment compared with the transition magnetic dipole moment as with the case of common organic chromophores, B , O -chelated PPABs are an important class of far-red CD and CPL materials for the future application toward the biomedical field and the organic optoelectronics. Further studies on substituent effects, molecular assemblies of B , O -chelated PPABs and their use as a chiral dopant 21 to enhance the dissymmetry factors are currently under investigation in our laboratory and will be reported in due course.…”

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confidence: 99%

Far-red fluorescence and chiroptical properties of pyrrolopyrrole aza-BODIPYs induced by the B,O-chelation

Fukami,

Mori,

Harada

et al. 2024

Chem. Commun.

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confidence: 99%

Far-red fluorescence and chiroptical properties of pyrrolopyrrole aza-BODIPYs induced by the B,O-chelation

Fukami,

Mori,

Harada

et al. 2024

Chem. Commun.

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From Molecules to Materials: Collaborative Research at the Chemistry—Materials Science Interface and Lessons Learned in Cyclophane Chemistry

Hassan,

Zysman‐Colman,

Lahann

et al. 2024

Adv Funct Materials

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In the spirit of pursuing collaborative research at the interface of chemistry and materials science for engineering cyclophane‐based functional systems, the journey from molecules to materials and a portion of the accomplishments exploring technologically‐relevant small‐molecule organic emitters, polymer thin films, and supra‐sensing through supramolecular host‐guest interactions (molecular self‐assembly) is shared. This report highlights diverse research trajectories and the importance of active collaboration within the chemistry community. It is also intended to serves young scientists who are committed to research in interdisciplinary domains. This inspires fostering global research networks and promoting industrial−academic symbiosis that bring innovations to the education environment and curriculum by sharing mutual experiences, knowledge, and specialized skills which may cut across several inter‐related disciplines.

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[2.2]Paracyclophanes: From Selective Functionalization to Optical Properties

Wu,

Felder,

Brom

et al. 2024

Advanced Optical Materials

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Since their discovery, [2.2]paracyclophane (pCp) and its derivatives have fascinated the scientific community due to their original molecular architecture and unusual electronic behavior. Over the years, significant efforts have been devoted to the development of substituted pCps for a variety of applications in different fields, ranging from organic synthesis and asymmetric catalysis to polymer chemistry and material science. This review describes a series of useful approaches that allow chemists to selectively decorate pCps, control the planar chirality that these molecules can display as soon as they are functionalized, and tune their photophysical behaviors. For each of these aspects of paracyclophane chemistry, selected examples of major advances are presented, and possible directions for future research are outlined. The application of pCp as central core for the development of uncommon 3D luminophores is finally highlighted. Emphasis is placed on the potential use of planar chiral luminescent paracyclophanes as antennas or ligands for the design of multifunctional lanthanide complexes, a quite underdeveloped but highly promising area for future research endeavors.

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Synthesis and Chiroptical Properties of Radially Extended Carbazole with Chiral [2.2]Paracyclophane Core

Cited by 5 publications

References 59 publications

Far-red fluorescence and chiroptical properties of pyrrolopyrrole aza-BODIPYs induced by the B,O-chelation

Far-red fluorescence and chiroptical properties of pyrrolopyrrole aza-BODIPYs induced by the B,O-chelation

From Molecules to Materials: Collaborative Research at the Chemistry—Materials Science Interface and Lessons Learned in Cyclophane Chemistry

[2.2]Paracyclophanes: From Selective Functionalization to Optical Properties

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