H2O2-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy

Yang Wang; Xufeng Liang; Jian An; Jia Pu; Yujia Meng; Yiqiao Bai; Wenqiang Yu; Yunhan Gao; Tingting Chen; Yong Yao

doi:10.1039/D4CC01485E

H₂O₂-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy†

Yang Wang,

*^a Xufeng Liang,^a Jian An,^a Jia Pu,^a Yujia Meng,^a Yiqiao Bai,^a Wenqiang Yu,^a Yunhan Gao,^a Tingting Chen*^a and Yong Yao

*^a

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* Corresponding authors

^a School of Chemistry and Chemical Engineering, Nantong University, Nantong, Jiangsu 226019, China
E-mail: ywang85@ntu.edu.cn, chentingting@ntu.edu.com, yaoyong1986@ntu.edu.cn

Abstract

A novel H₂O₂-responsive carbon monoxide nanogenerator was designed by effectively encapsulating a manganese carbonyl prodrug into porphyrinic covalent organic polymers for realizing the combined CO gas and photodynamic therapy under near infrared light irradiation.

Chemical Communications

H₂O₂-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy†

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Chemical Communications

H2O2-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy†

Abstract

Supplementary files

Article information

Download Citation

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H2O2-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy

Social activity

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H₂O₂-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy†

H₂O₂-triggered CO release based on porphyrinic covalent organic polymers for photodynamic/gas synergistic therapy