Theoretical insights into the AIE mechanism of assembles

Xintong Yang; Xiaoyan Zheng

doi:10.1002/bio.4642

Theoretical insights into the AIE mechanism of assembles

Xintong Yang, Xiaoyan Zheng^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

Fluorophores in aggregated state are commonly used in optoelectronic devices, and the molecular packing are complex and diverse, including crystal, amorphous aggregate in solution, thin film, ordered supramolecular assemblies, and highly ordered cell membrane. In addition, the luminous behavior of the aggregated state can be precisely regulated by external stimuli such as hydrostatic pressure. In this review, we summarize the representative progress on the application of multiscale modeling protocol to illustrate the underlying mechanism of fluorescent emission of organic dyes in different assembles. The aim is to obtain the molecular packing in different forms of assembles and then to understand their underlying mechanism of stimuli-responsive fluorescent behavior at the molecular level. This is essential for the rational design, synthesis, and efficient application of fluorescent dyes.

Original language	English
Article number	e4642
Journal	Luminescence
Volume	39
Issue number	2
DOIs	https://doi.org/10.1002/bio.4642
Publication status	Published - Feb 2024

Keywords

aggregation-induced emission
intermolecular interactions
multiscale modeling
self-assembly
structure–property relationship

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10.1002/bio.4642

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title = "Theoretical insights into the AIE mechanism of assembles",

abstract = "Fluorophores in aggregated state are commonly used in optoelectronic devices, and the molecular packing are complex and diverse, including crystal, amorphous aggregate in solution, thin film, ordered supramolecular assemblies, and highly ordered cell membrane. In addition, the luminous behavior of the aggregated state can be precisely regulated by external stimuli such as hydrostatic pressure. In this review, we summarize the representative progress on the application of multiscale modeling protocol to illustrate the underlying mechanism of fluorescent emission of organic dyes in different assembles. The aim is to obtain the molecular packing in different forms of assembles and then to understand their underlying mechanism of stimuli-responsive fluorescent behavior at the molecular level. This is essential for the rational design, synthesis, and efficient application of fluorescent dyes.",

keywords = "aggregation-induced emission, intermolecular interactions, multiscale modeling, self-assembly, structure–property relationship",

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N2 - Fluorophores in aggregated state are commonly used in optoelectronic devices, and the molecular packing are complex and diverse, including crystal, amorphous aggregate in solution, thin film, ordered supramolecular assemblies, and highly ordered cell membrane. In addition, the luminous behavior of the aggregated state can be precisely regulated by external stimuli such as hydrostatic pressure. In this review, we summarize the representative progress on the application of multiscale modeling protocol to illustrate the underlying mechanism of fluorescent emission of organic dyes in different assembles. The aim is to obtain the molecular packing in different forms of assembles and then to understand their underlying mechanism of stimuli-responsive fluorescent behavior at the molecular level. This is essential for the rational design, synthesis, and efficient application of fluorescent dyes.

AB - Fluorophores in aggregated state are commonly used in optoelectronic devices, and the molecular packing are complex and diverse, including crystal, amorphous aggregate in solution, thin film, ordered supramolecular assemblies, and highly ordered cell membrane. In addition, the luminous behavior of the aggregated state can be precisely regulated by external stimuli such as hydrostatic pressure. In this review, we summarize the representative progress on the application of multiscale modeling protocol to illustrate the underlying mechanism of fluorescent emission of organic dyes in different assembles. The aim is to obtain the molecular packing in different forms of assembles and then to understand their underlying mechanism of stimuli-responsive fluorescent behavior at the molecular level. This is essential for the rational design, synthesis, and efficient application of fluorescent dyes.

KW - aggregation-induced emission

KW - intermolecular interactions

KW - multiscale modeling

KW - self-assembly

KW - structure–property relationship

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VL - 39

JO - Luminescence

JF - Luminescence

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ER -

Theoretical insights into the AIE mechanism of assembles

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Keywords

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