| For tumor imaging guided photodynamic therapy process,the conundrum of achieving high fluorescence efficiency and singlet oxygen generation efficiency concurrently under the excitation condition of visible light has become a major obstacle to the integration of diagnosis and treatment.For lack of effective methods to resolve this issue,constructing a single photosensitizer with high quantum yield,efficient singlet oxygen generation,stable red emission,excellent photo-stability and low dark toxicity is challenging.In this research,the performance bottleneck is broken by designing an effective donor-acceptor system with excellent imaging and great photodynamic therapy capability through judiciously incorporating a novel polymer(J71)into a hydrophobic conjugated polymer,which is the first time of utilizing this celebrity photovoltaic material as a photosensitizer in photodynamic therapy process.Through fluorescence resonance energy transfer from conjugated polymer to J71,the fluorescence intensity and singlet oxygen production rate of nanoparticles can be simultaneously enhanced to 25.5% and 70%,respectively,which were higher than other inorganic and organic photosensitizers that have been reported so far.Moreover,the J71 as a novel photosensitizer is a kind of 2D-conjugated polymer,which displayed promising photo-stability than traditional porphyrin photosensitizer.The prepared nanoparticles present all desired properties.A series of in vivo and in vitro results revealed the excellent fluorescence imaging capability and noteworthy anti-tumor ability,indicative of this system has great potential application in tumor imaging guided photodynamic therapy. |
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