Hyperbranched Polyborosiloxanes: Non‐traditional Luminescent Polymers with Red Delayed Fluorescence

Non‐traditional fluorescent polymers have attracted significant attention for their excellent biocompatibility and diverse applications. However, designing and preparing non‐traditional fluorescent polymers that simultaneously possess long emission wavelengths and long fluorescence lifetime remains...

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Published in:Angewandte Chemie International Edition 2023-11, Vol.62 (48), p.e202312571-n/a
Main Authors: He, Yanyun, Feng, Weixu, Qiao, Yujie, Tian, Zhixuan, Tang, Ben Zhong, Yan, Hongxia
Format: Article
Language:English
Subjects:
Addition polymerization
Biocompatibility
Delayed Fluorescence
Development strategies
Electron Delocalization
Electron density
Emission analysis
Fluorescence
Light emission
Polyborosiloxanes
Polymers
Red Emission
Synergistic effect
Through-Space Interaction
Wavelengths
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cited_by cdi_FETCH-LOGICAL-c3901-d9494eb32521666db2b93f251bce08a33c46b26c041b14b2023cc5b101efab833
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container_title Angewandte Chemie International Edition
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creator He, Yanyun
Feng, Weixu
Qiao, Yujie
Tian, Zhixuan
Tang, Ben Zhong
Yan, Hongxia
description Non‐traditional fluorescent polymers have attracted significant attention for their excellent biocompatibility and diverse applications. However, designing and preparing non‐traditional fluorescent polymers that simultaneously possess long emission wavelengths and long fluorescence lifetime remains challenging. In this study, a series of novel hyperbranched polyborosiloxanes (P1–P4) were synthesized. As the electron density increases on the monomer diol, the optimal emission wavelengths of the P1–P4 polymers gradually red‐shift to 510, 570, 575, and 640 nm, respectively. In particular, P4 not only exhibits red emission but also demonstrates delayed fluorescence with a lifetime of 9.73 μs and the lowest critical cluster concentration (1.76 mg/mL). The experimental results and theoretical calculations revealed that the synergistic effect of dual heteroatom‐induced electron delocalization and through‐space O⋅⋅⋅O and O⋅⋅⋅N interaction was the key factor contributing to the red‐light emission with delayed fluorescence. Additionally, these polymers showed excellent potential in dual‐information encryption. This study provides a universal design strategy for the development of unconventional fluorescent polymers with both delayed fluorescence and long‐wavelength emission. The synergistic effect of dual heteroatom‐induced electron delocalization and through‐space O⋅⋅⋅O and O⋅⋅⋅N interactions has been used to construct non‐traditional fluorescence polymers with long emission wavelengths and fluorescence lifetimes. This has led to a hyperbranched polyborosiloxane that exhibits red emission at 640 nm and delayed fluorescence with a lifetime of 9.73 μs.
doi_str_mv 10.1002/anie.202312571
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However, designing and preparing non‐traditional fluorescent polymers that simultaneously possess long emission wavelengths and long fluorescence lifetime remains challenging. In this study, a series of novel hyperbranched polyborosiloxanes (P1–P4) were synthesized. As the electron density increases on the monomer diol, the optimal emission wavelengths of the P1–P4 polymers gradually red‐shift to 510, 570, 575, and 640 nm, respectively. In particular, P4 not only exhibits red emission but also demonstrates delayed fluorescence with a lifetime of 9.73 μs and the lowest critical cluster concentration (1.76 mg/mL). The experimental results and theoretical calculations revealed that the synergistic effect of dual heteroatom‐induced electron delocalization and through‐space O⋅⋅⋅O and O⋅⋅⋅N interaction was the key factor contributing to the red‐light emission with delayed fluorescence. Additionally, these polymers showed excellent potential in dual‐information encryption. 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subjects Addition polymerization
Biocompatibility
Delayed Fluorescence
Development strategies
Electron Delocalization
Electron density
Emission analysis
Fluorescence
Light emission
Polyborosiloxanes
Polymers
Red Emission
Synergistic effect
Through-Space Interaction
Wavelengths
title Hyperbranched Polyborosiloxanes: Non‐traditional Luminescent Polymers with Red Delayed Fluorescence
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