Henrique E. Toma scite author profile

Studies of a number of the properties of pentacyanoferrate(II) complexes of pyridine, pyrazine, and related aromatic nitrogen heterocycles are presented. Each complex has a strong absorption band in the visible region which is assigned to a metal-to-ligand electron-transfer transition. The calculated oscillator strengths of a number of the bands and the measured oxidation potentials of the Fe(II)-Fe(III) couples in the complexes are also reported. The complexes can be reversibly protonated, presumably at a cyanide. The measured values of the pK& for the protonated complexes vary according to the identity of the ligand. The kinetics of ligand exchange were studied, yielding clear evidence for a limiting SN1 substitution mechanism. The spectra and the thermodynamic and kinetic data are interpreted in terms ofbackdonation from the pentacyanoferrate(II) moiety to the aromatic ligand.

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Protomers: formation, separation and characterization via travelling wave ion mobility mass spectrometry

Lalli

et al. 2012

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Travelling wave ion mobility mass spectrometry (TWIM-MS) with post-TWIM and pre-TWIM collision-induced dissociation (CID) experiments were used to form, separate and characterize protomers sampled directly from solutions or generated in the gas phase via CID. When in solution equilibria, these species were transferred to the gas phase via electrospray ionization, and then separated by TWIM-MS. CID performed after TWIM separation (post-TWIM) allowed the characterization of both protomers via structurally diagnostic fragments. Protonated aniline (1) sampled from solution was found to be constituted of a ca. 5:1 mixture of two gaseous protomers, that is, the N-protonated (1a) and ring protonated (1b) molecules, respectively. When dissociated, 1a nearly exclusively loses NH(3) , whereas 1b displays a much diverse set of fragments. When formed via CID, varying populations of 1a and 1b were detected. Two co-existing protomers of two isomeric porphyrins were also separated and characterized via post-TWIM CID. A deprotonated porphyrin sampled from a basic methanolic solution was found to be constituted predominantly of the protomer arising from deprotonation at the carboxyl group, which dissociates promptly by CO(2) loss, but a CID-resistant protomer arising from deprotonation at a porphyrinic ring NH was also detected and characterized. The doubly deprotonated porphyrin was found to be constituted predominantly of a single protomer arising from deprotonation of two carboxyl groups.

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Interaction of cationic meso-porphyrins with liposomes, mitochondria and erythrocytes

Engelmann

Mayer

Gabrielli

et al. 2007

J Bioenerg Biomembr

101

106

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Two series of cationic porphyrins meso-(3N-methylpyridinium)phenylporphyrin (3P1, 3P2c, 3P2t, 3P3 and 3P4) and meso-(4N-methylpyridinium)phenylporphyrin (4P1, 4P2c, 4P2t, 4P3 and 4P4) were studied to obtain a comprehensive understanding of factors that influence the binding of cationic porphyrins to liposomes and mitochondria, as well as their photodynamic efficiencies in erythrocytes. Binding and photodynamic efficiency were found to be inversely proportional to the number of positively charged groups and directly proportional to n-octanol/water partition coefficients (log P(OW)), except for the cis molecules 3P2c and 4P2c. In the cis molecules, binding and photodynamic efficiency were much higher than expected, indicating that specific interactions not accounted by log P(OW) enhance photodynamic efficiency. The effect of mitochondrial transmembrane electrochemical potentials on cationic porphyrin binding constants was estimated to be as large as 15%, and may be useful to selectively target this organelle when promoting photodynamic therapy to induce apoptosis.

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Supramolecular assemblies of ruthenium complexes and porphyrins

Toma¹,

Araki²

2000

Coordination Chemistry Reviews

176

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Henrique E. Toma

Preparation and characterization of (3-aminopropyl)triethoxysilane-coated magnetite nanoparticles

Properties and reactivity of some pentacyanoferrate(II) complexes of aromatic nitrogen heterocycles

Protomers: formation, separation and characterization via travelling wave ion mobility mass spectrometry

Interaction of cationic meso-porphyrins with liposomes, mitochondria and erythrocytes

Supramolecular assemblies of ruthenium complexes and porphyrins

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