Abstract
Reactive oxygen species (ROS) are essential for biological processes like cell signaling and chemical processes like organic oxidation. Moreover, the sufficient generation of ROS plays a significant role in targeted tumor treatments or oxidation of organics. Herein, a hydrazone-linked porphyrin covalent organic framework (Por-DETH-COF) is developed for red light-induced generation of ROS like singlet oxygen (1O2) or superoxide (O2•−) to undertake different but targeted oxidations. First, 1O2 is adopted in photodynamic therapy (PDT) for the oxidation of glioma cells. The PDT efficiency of Por-DETH-COF on the apoptosis of glioma cells is explored through flow cytometry and western blot assay. The apoptosis rate of glioma cells significantly increases over Por-DETH-COF under 660 nm red light illumination, suggestive of the potency of 1O2. Second, O2•− is employed for the targeted oxidation of thiols. A series of thiols could be efficiently oxidized to corresponding disulfides over Por-DETH-COF under 660 nm red light illumination, indicative of the significance of O2•−. This work highlights the potential of covalent organic frameworks in generating ROS for precise medical applications of complex chemical environments.
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