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Orthogonal carbazole-perylene bisimide pentad: a photoconversion-tunable photosensitizer with diversified excitation and excited-state relaxation pathways

Authors :
Zhaolong Wang
Yue Sun
Pi-Tai Chou
Yu Fang
Gang Wang
Gang He
Yu-Chen Wei
Taihong Liu
Xingmao Chang
Simin Lin
Shengye Jin
Xinyu Gou
Source :
Science China Chemistry. 64:2193-2202
Publication Year :
2021
Publisher :
Springer Science and Business Media LLC, 2021.

Abstract

Integrating multiple photosensitive properties into an “all-in-one” photosensitizer (PS) shows great promise for the treatment of cancers owing to synergistic effect among them. However, the development of such PSs, especially those that need a single laser source, remains a challenge. Herein, we report an orchestration of electron donors and acceptors in a propeller-like pentad, PBI-4Cz, where four carbazole (Cz) units are covalently linked to the ortho-positions of the perylene bisimide (PBI) core. Strong intramolecular donor-acceptor interaction significantly quenches the luminescence and largely extends the absorption spectra to near-infrared region. Excited-state dynamics investigated via femto- and nano-second transient absorption spectroscopy revealed exclusive charge separation of the PBI-4Cz within initial 0.5 ps when photoexcited regardless of which intermediate is involved. Energy dissipation of the resulting charge-separated state (PBI•−-4Cz•−) is subjected to the toggle between intersystem-crossing toward excited triplet states and charge recombination toward ground states. Relative importance of the two pathways can be tuned by micro-environmental polarity, which endows PBI-4Cz remarkable performances of singlet-oxygen generation (>90.0%) in toluene and photothermal conversion (∼28.6%) in DMSO. Harnessing intrinsic photostability and excited-state processes of heavy-atom-free PBI derivatives not only holds a promise for multifunctional phototheranostics, but also provides a prototype for designing high-performance PSs with tunable photoconversion pathways.

Details

ISSN :
18691870 and 16747291
Volume :
64
Database :
OpenAIRE
Journal :
Science China Chemistry
Accession number :
edsair.doi...........5d0476e47c9253a2a7a741c5d5da7e43
Full Text :
https://doi.org/10.1007/s11426-021-1154-0