13116-27-3Relevant articles and documents
Homo- and hetero-[3]rotaxanes with two π-systems clasped in a single macrocycle
Klotz, Eric J. F.,Claridge, Tim D. W.,Anderson, Harry L.
, p. 15374 - 15375 (2006)
Here we present the first synthesis of a [3]rotaxane with two dumbbell components threaded through a single γ-cyclodextrin macrocycle. This synthesis is carried out in two steps: first one dumbbell is synthesized threaded through the macrocycle to give a
Smart J-aggregate of cyanine photosensitizer with the ability to target tumor and enhance photodynamic therapy efficacy
Li, Miao,Sun, Wen,Tian, Ruisong,Cao, Jianfang,Tian, Ye,Gurram, Bhaskar,Fan, Jiangli,Peng, Xiaojun
, (2021)
Photodynamic therapy (PDT) has been demonstrated to be effective for cancer treatment. Design of photosensitizers (PS) featuring tumor targeting, long excitation wavelengths, and high singlet oxygen quantum yields (Φ(1O2)) is the cru
Hypoxia-activated NIR photosensitizer anchoring in the mitochondria for photodynamic therapy
Xu, Feng,Li, Haidong,Yao, Qichao,Ge, Haoying,Fan, Jiangli,Sun, Wen,Wang, Jingyun,Peng, Xiaojun
, p. 10586 - 10594 (2019)
Photodynamic therapy is considered as a promising treatment for cancer, but still faces several challenges. The hypoxic environment in solid tumors, imprecise tumor recognition and the lack of selectivity between normal and cancer cells extremely hinder t
Photodynamic therapy with tumor cell discrimination through rna-targeting ability of photosensitizer
Jin, Xiaoyi,Li, Miao,Ma, Xiuqin,Tan, Yang,Tian, Ye,Xu, Yuan
supporting information, (2021/10/12)
Photodynamic therapy (PDT) represents an effective treatment to cure cancer. The targeting ability of the photosensitizer is of utmost importance. Photosensitizers that discriminate cancer cells can avoid the killing of normal cells and improve PDT effica