Quantitative structure property relationships to evaluate the photosensitizing capability in porphyrins and chlorins

Cárdenas-Jirón, Gloria I.; Santander-Nelli, Mireya; López, Raḿon; Menéndez, María Isabel Menéndez

doi:10.1002/qua.22731

Cited by 7 publications

(7 citation statements)

References 66 publications

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“…In parallel, advances in porphyrin chemistry have made the construction of bioconjugates much easier and now allow the preparation of selected regioisomers and more unsymmetrical derivatives. Computational approaches for the prediction of suitable candidate molecules are still in its infancy and might never reach practical use [94]. However, the picture evolving for mTHPC analogs has reached a point where comparative QSAR studies are possible and able to identify suitable compounds for use in more advanced bioconjugate targeting systems.…”

Section: Discussionmentioning

confidence: 99%

mTHPC – A drug on its way from second to third generation photosensitizer?

Senge

2012

Photodiagnosis and Photodynamic Therapy

111

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Section: Discussionmentioning

confidence: 99%

mTHPC – A drug on its way from second to third generation photosensitizer?

Senge

2012

Photodiagnosis and Photodynamic Therapy

111

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“…The same set of porphyrins and chlorins was used to explore the relation between the wavelength of the Q band (λ Q ) (the longest wavelength absorption) and eight descriptors (aromatic, electrostatic, and reactivity ones) by using quantitative structure property relationships (QSPR). [75] These descriptors were calculated using DFT. It was found that λ Q does not depend on a unique property; it is rather a multidimensional parameter.…”

Section: Photodynamic Therapymentioning

confidence: 99%

Quantum chemical studies of porphyrin‐ and expanded porphyrin‐based systems and their potential applications in nanoscience. Latin America research review

Cárdenas-Jirón

Borges-Martínez

Mera‐Adasme

et al. 2018

Int J of Quantum Chemistry

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Porphyrins and expanded porphyrins are fascinating molecular structures, and its wide applicability in different fields of the nanoscience has produced an extensive number of scientific publications. The purpose of this article is to review the research performed on porphyrins and expanded porphyrins in the Latin American region at a theoretical level of quantum chemistry using different methodologies available. The present review is organized considering the most important applications that these molecular systems have found. In this way, we classify the reported works in the following fields studied by the nanoscience: molecular electronics, dye‐sensitized solar cells, and photodynamic therapy. Because of its relevance, we also highlight other reports focused on the topological analysis of the electron density and aromaticity. Current investigation on these topics applied to porphyrin‐ and expanded porphyrin‐based systems and the future perspective in this field are presented.

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“…Macrocycles constituted by pyrrolic rings, such as metal free porphyrins, porphyrazines, phthalocyanines, and their respective metal complexes are involved in many chemical processes, such as molecular catalysis, electron transfer, photosynthesis, and light harvesting in devices such as dye sensitized solar cells . Synthesis and many applications of these systems have been carried out by several different research groups in order to develop new functional materials.…”

Section: Introductionmentioning

confidence: 99%

A molecular study of tetrakis(p -methoxyphenyl)porphyrin and its Zn(II) complex as discotic liquid crystals

Zarate

Schott

Alvarado-Soto

et al. 2013

Int. J. Quantum Chem

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A theoretical study has been carried out on two methoxyphenyl derivatives (tetrakis‐(p‐methoxyphenyl)‐ porphyrin and the Zn‐containing complex), which are the reduced size representation of the alkyl peripheral substituent systems. The aim is to study the electronic interactions on these aromatic cores which is one of the most important properties in discotic liquid crystals. Their face‐to‐face dimeric conformation systems were studied in order to evaluate charge transport properties, by assessing the intermolecular charge transfer integrals “t” in the context of the Marcus electron transfer theory. The intermolecular transfer integral has been calculated from the matrix elements of the Kohn–Sham Hamiltonian including dispersion correction for noncovalent interacting systems. The results indicate that the effect of the Zn center in these porphyrins is nearly negligible and both studied systems can act as electron carriers, which are also seen in the bonding interaction of the LUMO orbitals. © 2013 Wiley Periodicals, Inc.

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Quantitative structure property relationships to evaluate the photosensitizing capability in porphyrins and chlorins

Cited by 7 publications

References 66 publications

mTHPC – A drug on its way from second to third generation photosensitizer?

mTHPC – A drug on its way from second to third generation photosensitizer?

Quantum chemical studies of porphyrin‐ and expanded porphyrin‐based systems and their potential applications in nanoscience. Latin America research review

A molecular study of tetrakis(p -methoxyphenyl)porphyrin and its Zn(II) complex as discotic liquid crystals

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