2023
DOI: 10.1002/anie.202312627
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Disorder‐Enhanced Charge‐Transfer‐Mediated Room‐Temperature Phosphorescence in Polymer Media

Aoyuan Cheng,
Hao Su,
Xuewen Gu
et al.

Abstract: Room‐temperature phosphorescence (RTP) polymers have important applications for biological imaging, oxygen sensing, data encryption, and photodynamic therapy. Despite the many advantages polymeric materials offer such as great control over gas permeability and processing flexibility, disorder is traditionally considered as an intrinsic negative impact on the efficiency for embedded RTP luminophores, as various allowed thermal motions could quench the emitting states. However, we propose that such disorder‐enab… Show more

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Cited by 32 publications
(12 citation statements)
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“…Bd and BCz-1 give out (photoactivated) orange ultralong phosphorescence , in a PMMA film at room temperature; BCz, N-1 and N-2 ,, all emit (photoactivated) green ultralong phosphorescence in a PMMA film at room temperature. There is no doubt that phosphorescence color is closely related to the molecular structures of Phosphorescence Units . However, the internal structure–function relationship between phosphorescence color and the molecular structure of the Phosphorescence Unit is still unclear and should be paid close attention to. …”
Section: Introductionmentioning
confidence: 99%
“…Bd and BCz-1 give out (photoactivated) orange ultralong phosphorescence , in a PMMA film at room temperature; BCz, N-1 and N-2 ,, all emit (photoactivated) green ultralong phosphorescence in a PMMA film at room temperature. There is no doubt that phosphorescence color is closely related to the molecular structures of Phosphorescence Units . However, the internal structure–function relationship between phosphorescence color and the molecular structure of the Phosphorescence Unit is still unclear and should be paid close attention to. …”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, removal of the 365 nm UV source also exhibits an orange-yellow afterglow visible to the naked eye, which is consistent with the timedependent transient spectra (Figure 5c), suggesting that the TPP-o-3OMe-NMI-Br@PMMA films have photo-activated energy-transferring radical long afterglow properties. [22] It is worth mentioning that with the increasing doping concentration of TPP-o-3OMe-NMI-Br in PMMA (from 0.3% to 7.0%), their photoactivated UV-vis absorption spectra at 390-500 nm were enhanced (Take 0.5%, 2%, 3% as an example, Figure S18d-f, Supporting Information), while the long afterglow photoactivation time was gradually shortened (from 30 to 2 s) and accompanied by interesting fluorescence changes (purple to pink, Figure 5d), suggesting that multicolor fluorescence and time-dependent orange-yellow long afterglow emission can be modulated by modulating the doping ratio, the phenomenon is consistent with the steady-state spectrum (Figure S19, Supporting Information). We speculate that this phenomenon of photo-activated colorful fluorescence changes may arise from different luminophores in the molecule.…”
Section: Photo-activated Radical Afterglow Emission Of Tpp-o-3ome-nmi...mentioning
confidence: 99%
“…Various long-lived RTP materials have been reported thus far, including organic compounds, carbon dots, polymers, and inorganic-organic hybrids. [26][27][28][29] Among them, metal-organic frameworks (MOFs), as a novel class of aerglow materials, have garnered signicant attention recently due to their coordination bond-reinforced rigid structures that effectively suppress molecular vibrations and minimize energy dissipation from excited states. 30 Furthermore, the uniform distribution of metal ions within the structure can effectively facilitate the ISC process.…”
Section: Introductionmentioning
confidence: 99%