Shape‐Assisted Self‐Assembly of Hexa‐Substituted Carpyridines into 1D Supramolecular Polymers

Gallego, Lucía; Woods, Joseph F.; Butti, Rachele; Szwedziak, Piotr; Vargas Jentzsch, Andreas; Rickhaus, Michel

doi:10.1002/anie.202318879

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202318879

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Shape‐Assisted Self‐Assembly of Hexa‐Substituted Carpyridines into 1D Supramolecular Polymers

Lucía Gallego,

Joseph F. Woods,

Rachele Butti

et al.

Abstract: The extent of the influence that molecular curvature plays on the self‐assembly of supramolecular polymers remains an open question in the field. We began addressing this fundamental question with the introduction of “carpyridines”, which are saddle‐shaped monomers that can associate with one another through π‐π interactions and in which the rotational and translational movements are restricted. The topography displayed by the monomers led, previously, to the assembly of highly ordered 2D materials even in the… Show more

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Cited by 3 publications

References 73 publications

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Supramolecular Chemistry: Exploring the Use of Electronic Structure, Molecular Dynamics, and Machine Learning Approaches

Colaço,

Glitz,

Jacobs

et al. 2024

Eur J Org Chem

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This review aims to highlight the role that computational chemistry has played in advancing the supramolecular chemistry field. We demonstrated recent uses of computational methodologies to elucidate noncovalent interactions in various processes occurring in supramolecular systems. We also emphasized the contributions of these techniques to studying reactions within confined space, showing how computational methodologies help clarify the effects of reactivity and conformational locking. Furthermore, we underscore the utilization of Molecular Dynamics (MD) in elucidating dynamical processes, understanding temperature and pressure effects, and exploring conformational space within supramolecular chemistry. Finally, we highlight the impact that the age of machine learning has on computational chemistry, showing how these universal approximators can enhance existing methods, predict properties, and efficiently explore the chemical space encompassed by these complex systems.

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Supramolecular Chemistry: Exploring the Use of Electronic Structure, Molecular Dynamics, and Machine Learning Approaches

Colaço,

Glitz,

Jacobs

et al. 2024

Eur J Org Chem

View full text Add to dashboard Cite

show abstract

Biomimetic light-harvesting antennas via the self-assembly of chemically programmed chlorophylls

Matsubara,

Shoji,

Tamiaki

2024

Chem. Commun.

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Molecular Assemblies of Minor Trigonal Molecules Regulated with the Help of Major Light-sensitive Components

Han

2024

J. Photopol. Sci. Technol.

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We prepared light-sensitive mixture systems consisting of both major azobenzenecontaining components (linear amphiphile, AzEG, and block copolymer, pAzBu) and trigonal molecule (3Br) as a minor functional compound, in order to create a new type of functional organic materials capable of photoswitching of color, emission, and surface morphology. 3Br was chosen because it is red, aggregation-induced emission enhancement (AIE/AIEE)-active, and has a strong tendency to grow into crystalline one-dimensional (1D) fibers, allowing fluorescent nano-and microstructures formed as a result of assembly to be readily observed. First, we examined what shape of assembled aggregates 3Br produced in mixture systems with AzEG and pAzBu as major components. Investigations of how the spectroscopic (color and emission) characteristics of the resulting 3Br-based aggregates were affected by light-sensitive surrounding environments were followed. In 3Br-AzEG (1:18) THF-H2O mixture suspensions, 3Br and amphiphilic AzEG molecules grew into red fluorescent microrods and nonfluorescent spherical objects, respectively. On the other hand, 3Br-pAzBu blend films exhibited a large amount of micrometer-sized 3Br rods. Importantly, a very short period of light irradiation resulted in noticeable changes in the color and emission intensity of the rods as well as the surface morphology of the blend films.

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Shape‐Assisted Self‐Assembly of Hexa‐Substituted Carpyridines into 1D Supramolecular Polymers

Cited by 3 publications

References 73 publications

Supramolecular Chemistry: Exploring the Use of Electronic Structure, Molecular Dynamics, and Machine Learning Approaches

Supramolecular Chemistry: Exploring the Use of Electronic Structure, Molecular Dynamics, and Machine Learning Approaches

Biomimetic light-harvesting antennas via the self-assembly of chemically programmed chlorophylls

Molecular Assemblies of Minor Trigonal Molecules Regulated with the Help of Major Light-sensitive Components

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