Aggregation Effect on Multiperformance Improvement in Aryl-Armed Phenazine-Based Emitters

The concept of aggregate science was proposed to explain changes in materials performance that accompany the generation of aggregates, but aggregation-triggered multifunction improvements in a class of materials have rarely been reported. Herein, we present the first report of a new class of multifu...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2023-01, Vol.145 (3), p.1607-1616
Main Authors: Wan, Qing, Li, Yuxuan, Ding, Keke, Xie, Yili, Fan, Jianzhong, Tong, Jialin, Zeng, Zebing, Li, Yin, Zhao, Chunhui, Wang, Zhiming, Tang, Ben Zhong
Format: Article
Language:English
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Summary:The concept of aggregate science was proposed to explain changes in materials performance that accompany the generation of aggregates, but aggregation-triggered multifunction improvements in a class of materials have rarely been reported. Herein, we present the first report of a new class of multifunctional aggregation-induced emission (AIE) luminogens (AIEgens) based on 5,10-diarylphenazine (DPZ) derivates with full-wavelength emission. Intriguingly, multiple properties, such as fluorescence intensity and free radical and type I reactive oxygen species (ROS) efficiencies, could be simultaneously activated from the unimolecular level to the aggregate state. The mechanisms of this multiple performance improvement are discussed in detail based on sufficient performance characterization, and some of the newly prepared AIEgens exhibited toxicity to cancer cells during photodynamic therapy. This work systematically demonstrates the positive effect of aggregation on improving multiple functions of materials, which is expected to promote the development of aggregate science theory for the design of multifunctional materials.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.2c09210