Аннотация:A series of tribenzo[g,l,q]- 6H- 1,4- diazepino[2,3- b]porphyrazines has been synthesized. A temperature- dependent steric effect was applied in the mixed Linstead macrocyclization of phthalonitrile and 5,7- bis(2′- arylethenyl)- 6- propyl- 6H- 1,4- diazepine- 2,3- dicarbonitrile to achieve high yield of low- symmetry A3B- type Mg(II) tribenzo[g,l,q]- 6H- 1,4- diazepino[2,3- b]porphyrazinate. The analysis of photophysical and photochemical properties of the obtained complexes showed the anti- Kasha effect: the ultrafast spin changes success-fully compete with the IC. TD- DFT calculations showed that the presence of 1,4- diazepine heterocycle in the porphyrazine structure leads to the formation of additional charge- transfer triplet state T2. We propose, it could participate in the pumping of T1x state alongside with T1y state (these states are degener-ate in D4h symmetry) and, therefore, increase singlet oxygen (1Δg) generation. Stable micellar nanoparticles have been obtained based on the tribenzo[g,l,q]- 6H- 1,4- diazepino[2,3- b]porphyrazine Mg(II) and Zn(II) complexes using poly-vinylpyrrolidone. The nanoparticles effectively interact with model biological structures (FBS and brain homogenate), leading to disaggregation of the mac-rocycles. They also exhibit pronounced phototoxic effects in MCF- 7 cells upon red light irradiation. We propose that enhancement in PDT activity could be explained by their increased resistance to aggregation due to the presence of n- propyl substituent directly attached to the C6 position of the 1,4- diazepine