En route to the transformation of porphyrin molecules for PDT: Theoretical insights on the reactive oxygen generation of 1D nano-wires and 2D covalent organic frameworks

[Display omitted] •The PSs used in hypoxic environment are investigated by using theoretical method.•The newly discovered photocatalytic activity ensures to get reactive oxygen OH.•The novel Type I PSs for photodynamic therapy are presented. The application of photosensitizers (PSs) is sometimes lim...

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Bibliographic Details
Published in:Chemical physics 2021-09, Vol.549, p.111278, Article 111278
Main Authors: Liu, Ying-Tao, Luo, Li-Long, Zhu, Hui, Wang, Ping-Xia, Geng, Xiang-Yan, Wang, Xin
Format: Article
Language:English
Subjects:
Absorption spectra
One-dimensional tetraphenylporphyrin nano-wires
Photodynamic therapy
Two dimensional tetraphenylporphyrins COFs
Type I photoreactions
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Summary:[Display omitted] •The PSs used in hypoxic environment are investigated by using theoretical method.•The newly discovered photocatalytic activity ensures to get reactive oxygen OH.•The novel Type I PSs for photodynamic therapy are presented. The application of photosensitizers (PSs) is sometimes limited due to hypoxic environment. To overcome this drawback, one-dimensional infinite tetraphenylporphyrin nano-wires (1D-TPP-WIREs) and two-dimensional tetraphenylporphyrin covalent organic frameworks (2D-TPP-COFs) as Type I photosensitizers (PSs) for photodynamic therapy (PDT) are presented. Meanwhile, the mono-TPP, bis-TPP, and terta-TPP molecules are also studied to investigate the influence of conjugative and metallic effect on the properties of the TPP system. Compared with mono-TPPs, the intra-molecular charge transfer in bis-TPPs and tetra-TPPs is more obvious, the absorption spectra intensity of bis-TPPs and tetra-TPPs is strengthened. Moreover, the 1D-TPP-WIREs and 2D-TPP-COFs with more large conjugated TPP system exhibit photocatalytic activity, which can abstract hydrogen from water to get reactive oxygen OH for treatment of hypoxic tumours. Comprehensively consider the properties of charge density distribution, absorption spectra, band edge position of the CB and VB potentials, the 1D-TPP-WIRE-HCu and 2D-TPP-COF-HCu is more suitable for hypoxic Type I PDT.
ISSN:0301-0104
DOI:10.1016/j.chemphys.2021.111278