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Aluminium(III) porphyrin based axial-bonding type dyads containing thiaporphyrins and expanded thiaporphyrins as axial ligands

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Title Aluminium(III) porphyrin based axial-bonding type dyads containing thiaporphyrins and expanded thiaporphyrins as axial ligands
 
Creator GHOSH, A
MAITY, DK
RAVIKANTH, M
 
Subject LIGHT-HARVESTING ANTENNA
SINGLET-STATE PROPERTIES
TIN(IV) PORPHYRINS
PHOSPHORUS(V) PORPHYRINS
MULTIPORPHYRIN ARRAYS
HYDROGEN-TRANSFER
SN(IV) PORPHYRIN
ENERGY-TRANSFER
CARBON-DIOXIDE
VISIBLE-LIGHT
 
Description Four axial-bonding type Al(III) porphyrin based dyads, containing thiaporphyrins with N3S 1 and N2S2 2 cores and expanded thaiporphyrins with N2S3 3 and N2S4 4 cores, were synthesised by treating [(TPP)A1(III)OH] with the corresponding mono-functionalised meso-4-hydroxyphenyl thiaporphyrin or expanded thiaporphyrin building blocks in benzene at refluxing temperature. The stable dyads 1-4 are freely soluble in common organic solvents and characterized by mass, ID and 2D NMR, absorption, electrochemical and fluorescence techniques. ID and 2D NMR studies unambiguously confirmed the dyads. The absorption and electrochemical studies show weak interaction between the two macrocycles in dyads and the constituted macrocycles in dyads mostly retain their characteristic individual features. The steady state fluorescence studies indicate a decrease in the quantum yield of Al(m) porphyrin unit in dyads 1-4 and invoked the possibility of singlet-singlet energy transfer from the Al(m) porphyrin unit to the N3S porphyrin unit in dyad 1 and N2S2 porphyrin unit in dyad 2. Structural information of these dyads in their ground (S-0) state are generated by applying density functional theory (DFT) based quantum chemical calculations. Excited state calculations are carried out following time dependent density functional theory (TD-DFT) and UV-Vis spectra of these dyads are simulated in the Soret band region.
 
Publisher ROYAL SOC CHEMISTRY
 
Date 2014-10-16T13:39:05Z
2014-10-16T13:39:05Z
2012
 
Type Article
 
Identifier NEW JOURNAL OF CHEMISTRY, 36(12)2630-2641
http://dx.doi.org/10.1039/c2nj40631d
http://dspace.library.iitb.ac.in/jspui/handle/100/15687
 
Language en