“Click”-reaction: An alternative tool for new architectures of porphyrin based derivatives

“…Actually, derivatives with triazolyl substituents demonstrated marked anticancer effect on several malignant tumor cell lines [36][37][38][39][40]. Triazoles have been also used to functionalize porphyrin derivatives, mainly by the "click chemistry" approach [41,42]. This copper(I) catalyzed azide-alkyne cycloaddition has been applied in the derivatization of several tetrapyrrolic molecules such as porphyrins, phthalocyanines, and corroles [41] and many studies have been conducted on the use of these "click-made" porphyrins as polymers [43], in biochemistry [18,24], in materials chemistry [44], and for the preparation of PSs for PDT [45][46][47][48].…”

“…Triazoles have been also used to functionalize porphyrin derivatives, mainly by the "click chemistry" approach [41,42]. This copper(I) catalyzed azide-alkyne cycloaddition has been applied in the derivatization of several tetrapyrrolic molecules such as porphyrins, phthalocyanines, and corroles [41] and many studies have been conducted on the use of these "click-made" porphyrins as polymers [43], in biochemistry [18,24], in materials chemistry [44], and for the preparation of PSs for PDT [45][46][47][48]. However, in such studies a systematic evaluation of the role of the triazole moiety on the PDT efficacy of porphyrins bearing this type of units has not yet been performed.…”

Synthesis, Characterization and Photodynamic Activity against Bladder Cancer Cells of Novel Triazole-Porphyrin Derivatives

“…Actually, derivatives with triazolyl substituents demonstrated marked anticancer effect on several malignant tumor cell lines [36][37][38][39][40]. Triazoles have been also used to functionalize porphyrin derivatives, mainly by the "click chemistry" approach [41,42]. This copper(I) catalyzed azide-alkyne cycloaddition has been applied in the derivatization of several tetrapyrrolic molecules such as porphyrins, phthalocyanines, and corroles [41] and many studies have been conducted on the use of these "click-made" porphyrins as polymers [43], in biochemistry [18,24], in materials chemistry [44], and for the preparation of PSs for PDT [45][46][47][48].…”

“…Triazoles have been also used to functionalize porphyrin derivatives, mainly by the "click chemistry" approach [41,42]. This copper(I) catalyzed azide-alkyne cycloaddition has been applied in the derivatization of several tetrapyrrolic molecules such as porphyrins, phthalocyanines, and corroles [41] and many studies have been conducted on the use of these "click-made" porphyrins as polymers [43], in biochemistry [18,24], in materials chemistry [44], and for the preparation of PSs for PDT [45][46][47][48]. However, in such studies a systematic evaluation of the role of the triazole moiety on the PDT efficacy of porphyrins bearing this type of units has not yet been performed.…”

Synthesis, Characterization and Photodynamic Activity against Bladder Cancer Cells of Novel Triazole-Porphyrin Derivatives

“…The CuAAC reaction is considered as the most robust and straightforward synthetic procedure for various organic syntheses [188], especially in building novel structures, including natural products modifications [189], the synthesis of porphyrin based derivatives [190], the iterative click construction of dendrimers that are terminated with various functional groups [191], and polymers [192]. In the case of the dendrimer the "click" synthesis of a water soluble dendrimer that contained 9 intradendritic triazole rings and terminated by 27 triethylene glycol (TEG) termini was reported and used as nanoparticle stabilizer and catalyst template.…”

Metal-catalyzed azide-alkyne “click” reactions: Mechanistic overview and recent trends

“…The covalent linkage prevents metal‐cofactor dissociation phenomena and reduces the possibility of axial ligand dissociation and/or scrambling. Numerous strategies have been developed to afford elaborate peptide‐porphyrin architectures . The systems herein described point out that an increase in the catalytic activity is strictly related to the complexity of the cofactor environment.…”

Oxidation catalysis by iron and manganese porphyrins within enzyme‐like cages