2011
DOI: 10.1002/chem.201002822
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Greatly Enhanced Intermolecular π‐Dimer Formation of a Porphyrin Trimer Radical Trications through Multiple π Bonds

Abstract: A trefoil-like porphyrin trimer linked by triphenylamine (TPA-TPZn(3)) was synthesized. A three-electron oxidation of TPA-TPZn(3) forms a radical trication (TPA-TPZn(3)(3+)), in which each porphyrin ring undergoes a one-electron oxidation. The radical trication TPA-TPZn(3)(3+) spontaneously dimerizes to afford (TPA-TPZn(3))(2)(6+) in CH(2)Cl(2) . The characteristic charge-resonance band due to the charge delocalization over the π system of (TPA-TPZn(3))(2)(6+) was observed in the NIR region. The initial oxidat… Show more

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Cited by 14 publications
(11 citation statements)
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“…Visible−near-infrared (vis−NIR) spectroscopy provided further evidence of electron delocalization through the BP columnar stacka very broad peak in the NIR region of 1500− 2500 nm (Figure 2f), which we assign to a charge-resonance band because of electron delocalization among tightly π-stacked BP molecules. 25,26 The significantly blue-shifted (against neutral BP) Soret band peaked at 396 nm and the Q-band peaked at 594 nm are also characteristic.…”
Section: +mentioning
confidence: 99%
“…Visible−near-infrared (vis−NIR) spectroscopy provided further evidence of electron delocalization through the BP columnar stacka very broad peak in the NIR region of 1500− 2500 nm (Figure 2f), which we assign to a charge-resonance band because of electron delocalization among tightly π-stacked BP molecules. 25,26 The significantly blue-shifted (against neutral BP) Soret band peaked at 396 nm and the Q-band peaked at 594 nm are also characteristic.…”
Section: +mentioning
confidence: 99%
“…•+ ). 113,116,117 In sharp contrast to the TPZn 3 -PyC 60 complex, the transient absorption spectrum of the monomer porphyrin (MPZn) in the presence of PyC 60 (Fig. 13b) exhibits the absorbance change due to the energy transfer from 1 MPZn* to PyC 60 to give the singlet excited state 1 PyC 60 * (1.76 eV), followed by the conversion to the triplet excited states 3 MPZn* and 3 PyC 60 * at 2800 ps (green line in Fig.…”
Section: Dalton Transactions Perspectivementioning
confidence: 99%
“…The interaction of delocalized π radicals to form cofacial dimers and stacked architectures is an important aspect of the chemistry of stable organic radicals and of several metal complexes of redox-active ligands hosting unpaired electrons. In recent years, π–π interactions have been incorporated in the design of functional molecular materials featuring tunable optical and conductive properties. In biology, π–π interactions between tetrapyrrolic macrocycles are key to numerous electron-transfer processes, such as those originating at the bacteriochlorophyll dimer ( special pair ) in bacterial photosynthetic reaction centers. , Inspired by the combination of π–π electronic interactions and one-electron redox chemistry in biological tetrapyrroles, the chemistry of π dimers of porphyrin radical cations continues to attract considerable attention. Herein, we document the first characterizations in solution of neutral π dimers featuring ligand-based radicals on tripyrrolic complexes.…”
Section: Introductionmentioning
confidence: 99%