靳国瑞  (教授)

博士生导师 硕士生导师

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所在单位:生命科学与技术学院

职务:教授

学历:博士研究生毕业

性别:男

学位:博士

主要任职:仿生工程与生物力学研究所

毕业院校:新加坡国立大学

   

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祝贺博士生倪钧钧关于一氧化氮供价修饰近红外光激发D-A型光敏剂被Advanced Materials 接收~!

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发布时间:2026-06-25

发布时间:2026-06-25

文章标题:祝贺博士生倪钧钧关于一氧化氮供价修饰近红外光激发D-A型光敏剂被Advanced Materials 接收~!

摘要:Near-infrared (NIR)-activated type I photosensitizers (PSs) with aggregation-induced emission (AIE) properties are highly attractive for photodynamic therapy (PDT) of deep-seated and inoperable tumors. However, most NIR-activated AIEgens, especially donor–acceptor–donor (D-A-D) benzobisthiadiazole derivatives, are mainly used for bioimaging and photothermal therapy due to their intrinsically small S1→S0 energy gaps (ΔES1-S0) severely limiting reactive oxygen species (ROS) generation. Here, we present a strategy to convert widely adopted D-A-D NIR-activated AIEgens into NIR-activated type I PSs

内容:

Near-infrared (NIR)-activated type I photosensitizers (PSs) with aggregation-induced emission (AIE) properties are highly attractive for photodynamic therapy (PDT) of deep-seated and inoperable tumors. However, most NIR-activated AIEgens, especially donor–acceptor–donor (D-A-D) benzobisthiadiazole derivatives, are mainly used for bioimaging and photothermal therapy due to their intrinsically small S1S0 energy gaps (ΔES1-S0) severely limiting reactive oxygen species (ROS) generation. Here, we present a strategy to convert widely adopted D-A-D NIR-activated AIEgens into NIR-activated type I PSs by conjugating nitric oxide (NO) to the electron-donating units. Upon NO conjugation, the resulting compounds NO-T-TQT and NO-2TT-oC6B become efficient generators of NIR-activated hydroxyl radical (OH), exhibiting a 13.2-fold and 5.4-fold increase in superoxide (O2 ) production compared with their parent molecules, respectively. In contrast, T-TQT, 2TT-oC6B, and related analogues produce negligible ROS and no detectable OH. Mechanistic studies reveal that NO conjugation narrows the singlet-triplet energy gap, strengthens spin-orbit coupling to enhance intersystem crossing, optimizes redox potentials to favor electron transfer, and lowering hydrogen atom affinity. NO-2TT-oC6B nanoparticles achieved potent in vitro cytotoxicity and effective in vivo tumor ablation under NIR irradiation. This work establishes a general approach to transform conventional NIR-activated D-A-D AIEgens into high-performance type I PSs, significantly advancing their clinical potential in PDT.

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