107247-59-6Relevant articles and documents
Novel fluorescence quenching triad based on molybdenum(V) tetra-p-Tolylporphyrin and substituted fullero[60]pyrrolidine
Gruzdev, Matvey S.,Lomova, Tatyana N.,Motorina, Elena V.,Mozhzhukhina, Elena G.
, p. 1224 - 1232 (2020)
With the aim of designing new photoactive donor-Acceptor dyads, self-Assembly in the (ethoxy)(oxo)(5,10,15,20-(4-methylphenyl)porphinato)molybdenum(V) (O=Mo(OEt)TTP)-2′-(pyridin-4-yl)-5′-(pyridin-2-yl)-1′-(pyridin-2-yl-methyl)pyrrolidino[60]fullerene (Py3F)-Toluene systems was quantitatively studied using spectral methods (UV-vis, IR, 1H NMR, mass spectrometry), chemical thermodynamics, and chemical kinetics. Interaction between O=Mo(OEt)TTP and pyridine (Py) proceeding as step equilibriums was preliminarily studied to model the processes above. The novel donor-Acceptor triad based on O=Mo(OEt)TTP and Py3F is represented with both quantitative description of its formation and conformation of the chemical structure. Prospects for the study of the triad as a photosynthetic antenna imitator and an active layer in organic solar cells are substantiated by a fluorescence method. Along with this, it has been demonstrated that O=Mo(OEt)TTP is a good candidate for use as an optical and fluorescent chemosensor of volatile organic compounds and nitrogen bases-the building blocks of pharmaceuticals, food components and environmental pollutants.