For metalation of the acidic form of tetrakis(4-sulfonatophenyl)porphyrin (dianionic H4TPPS4) by Cu(II), the order of reagent mixing determines the rate and mechanism of CuTPPS4 formation. When copper salts are added last, the kinetic profile is fit as a (pseudo)-first-order process. However, J-aggregates of the H4TPPS4 porphyrin are rapidly formed at pH 3 when Cu(II) salts are incorporated in solution prior to porphyrin addition. The subsequent porphyrin units metalation leads to the disassembling of these arrays via a pseudo-zero-order kinetic profile, suggesting an attack of the metal ion at the rims of the nanostructure.
Peripheral Stepwise Degradation of a Porphyrin J-aggregate
OCCHIUTO, ILARIA GIUSEPPINA;DE LUCA, Giovanna;TRAPANI, MARIA CHIARA;MONSU' SCOLARO, Luigi;
2012-01-01
Abstract
For metalation of the acidic form of tetrakis(4-sulfonatophenyl)porphyrin (dianionic H4TPPS4) by Cu(II), the order of reagent mixing determines the rate and mechanism of CuTPPS4 formation. When copper salts are added last, the kinetic profile is fit as a (pseudo)-first-order process. However, J-aggregates of the H4TPPS4 porphyrin are rapidly formed at pH 3 when Cu(II) salts are incorporated in solution prior to porphyrin addition. The subsequent porphyrin units metalation leads to the disassembling of these arrays via a pseudo-zero-order kinetic profile, suggesting an attack of the metal ion at the rims of the nanostructure.File in questo prodotto:
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