Recent progress in organometallic porphyrin‐based molecular materials for optical sensing, light conversion, and magnetic cooling

Abstract: We present the review of fundamental parameters and properties of metalloporphyrins/phthalocyanines with axial covalent M-O/M-N bonds (M is a metal atom in the oxidation degree more than 2+) for use in the development of the chemistry of molecular materials. The porphyrin complexes covalently bonded along the axial axis are differed by the high oxidation state of a metal atom and related heightened axial reactivity compared with the corresponding derivatives of two charged metal cations, applications of which … Show more

“…Because of high affinity to fullerene organic bases, indium(III) porphyrin complexes have good prospects for the development of all-small-molecule organic solar cells (SM-OSCs). [124] Also, they are characterized by the uniquely high molar absorption coefficient at the boundary between the UV and visible regions (B band at the 420 nm, log ε = 4.98 in CHCl 3 , Table 1) that is only slightly different in a solution and solid, the low conduction activation energy (E T = 0.60 eV), and conductivity indifferent to air oxygen (σ vac = 7.1•10 -7 1/Ω cm, σ air = 9.6•10 -8 1/Ω cm). [125] The use of (Cl)InTPP instead of zinc phthalocyanine [126] promises a higher efficiency of photocurrent generation in SM-OSCs.…”

The p-Metal Porphyrins: from Specificity of Properties to Application in Medicine, Catalysis, and Optoelectronics

“…Because of high affinity to fullerene organic bases, indium(III) porphyrin complexes have good prospects for the development of all-small-molecule organic solar cells (SM-OSCs). [124] Also, they are characterized by the uniquely high molar absorption coefficient at the boundary between the UV and visible regions (B band at the 420 nm, log ε = 4.98 in CHCl 3 , Table 1) that is only slightly different in a solution and solid, the low conduction activation energy (E T = 0.60 eV), and conductivity indifferent to air oxygen (σ vac = 7.1•10 -7 1/Ω cm, σ air = 9.6•10 -8 1/Ω cm). [125] The use of (Cl)InTPP instead of zinc phthalocyanine [126] promises a higher efficiency of photocurrent generation in SM-OSCs.…”

The p-Metal Porphyrins: from Specificity of Properties to Application in Medicine, Catalysis, and Optoelectronics

“…Inspired by nature that is using metalloporphyrins as antennae molecules, redox shuttles and redox and photo catalysts [ 1 ], researchers have tried to use artificial porphyrin complexes for various purposes in the last decades [ 2 , 3 , 4 , 5 , 6 , 7 , 8 ]. Cobalt porphyrins provide a rich electrochemistry consisting of both metal- (Co(I)/Co(II)/Co(III) and porphyrin-centred redox processes.…”

CO2 to CO Electroreduction, Electrocatalytic H2 Evolution, and Catalytic Degradation of Organic Dyes Using a Co(II) meso-Tetraarylporphyrin

The literature of heterocyclic chemistry, Part XXI, 2021