Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study

Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study

The effect of the coordination of a Ni(II) ion on the electronic and magnetic properties of the ligand salophen were experimentally and theoretically evaluated. The complex [Ni(salophen)] was synthesized and characterized through FTIR and an elemental analysis. Spectral data obtained using DMSO as a...

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Main Authors: Rodrigo A. Mendes, José Carlos Germino, Bruno R. Fazolo, Ericson H.N.S. Thaines, Franklin Ferraro, Anderson M. Santana, Romildo J. Ramos, Gabriel L.C. de Souza, Renato G. Freitas, Pedro A.M. Vazquez, Cristina A. Barboza
Format: Article
Language:English
Published: Elsevier 2018-01-01
Series:Journal of Advanced Research
Subjects:
Salophen
Nickel complex
Photoluminescence
TD-DFT
NTO
Magnetically induced rings
Online Access:http://www.sciencedirect.com/science/article/pii/S209012321730108X
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spelling doaj-32c7a117055145ac9b2b68b2c55796052020-11-24T21:33:00ZengElsevierJournal of Advanced Research2090-12322090-12242018-01-019C273310.1016/j.jare.2017.10.004Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT studyRodrigo A. Mendes0José Carlos Germino1Bruno R. Fazolo2Ericson H.N.S. Thaines3Franklin Ferraro4Anderson M. Santana5Romildo J. Ramos6Gabriel L.C. de Souza7Renato G. Freitas8Pedro A.M. Vazquez9Cristina A. Barboza10LCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilChemistry Institute, State University of Campinas – UNICAMP, Campinas, BrazilLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilDepartamento de Ciencias Básicas, Universidad Católica Luis Amigó, Medellin, ColombiaLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilLCM – Laboratório Computacional de Materiais – Department of Chemistry, Federal University of Mato Grosso–UFMT, Cuiabá, BrazilChemistry Institute, State University of Campinas – UNICAMP, Campinas, BrazilInstitute of Physics, Polish Academy of Sciences, 02 668 Warsaw, PolandThe effect of the coordination of a Ni(II) ion on the electronic and magnetic properties of the ligand salophen were experimentally and theoretically evaluated. The complex [Ni(salophen)] was synthesized and characterized through FTIR and an elemental analysis. Spectral data obtained using DMSO as a solvent showed that the ligand absorption profile was significantly disturbed after the coordination of the metal atom. In addition to a redshift of the salophen ligand absorption bands, mainly composed by π → π∗electronic transitions, additional bands of around 470 nm were observed, resulting in a partial metal-to-ligand charge transfer. Furthermore, a significant increment of its band intensities was observed, favoring a more intense absorption in a broader range of the visible spectrum, which is a desired characteristic for applications in the field of organic electronics. This finding is related to an increment of the planarity and consequent electron delocalization of the macrocycle in the complex, which was estimated by the calculation of the current strengths at the PBE0/cc-pVTZ (Dyall.v3z for Ni(II)) level.http://www.sciencedirect.com/science/article/pii/S209012321730108XSalophenNickel complexPhotoluminescenceTD-DFTNTOMagnetically induced rings
collection DOAJ
language English
format Article
sources DOAJ
author Rodrigo A. Mendes
José Carlos Germino
Bruno R. Fazolo
Ericson H.N.S. Thaines
Franklin Ferraro
Anderson M. Santana
Romildo J. Ramos
Gabriel L.C. de Souza
Renato G. Freitas
Pedro A.M. Vazquez
Cristina A. Barboza
spellingShingle Rodrigo A. Mendes
José Carlos Germino
Bruno R. Fazolo
Ericson H.N.S. Thaines
Franklin Ferraro
Anderson M. Santana
Romildo J. Ramos
Gabriel L.C. de Souza
Renato G. Freitas
Pedro A.M. Vazquez
Cristina A. Barboza
Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
Journal of Advanced Research
Salophen
Nickel complex
Photoluminescence
TD-DFT
NTO
Magnetically induced rings
author_facet Rodrigo A. Mendes
José Carlos Germino
Bruno R. Fazolo
Ericson H.N.S. Thaines
Franklin Ferraro
Anderson M. Santana
Romildo J. Ramos
Gabriel L.C. de Souza
Renato G. Freitas
Pedro A.M. Vazquez
Cristina A. Barboza
author_sort Rodrigo A. Mendes
title Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
title_short Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
title_full Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
title_fullStr Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
title_full_unstemmed Electronic and magnetic properties of the [Ni(salophen)]: An experimental and DFT study
title_sort electronic and magnetic properties of the [ni(salophen)]: an experimental and dft study
publisher Elsevier
series Journal of Advanced Research
issn 2090-1232
2090-1224
publishDate 2018-01-01
description The effect of the coordination of a Ni(II) ion on the electronic and magnetic properties of the ligand salophen were experimentally and theoretically evaluated. The complex [Ni(salophen)] was synthesized and characterized through FTIR and an elemental analysis. Spectral data obtained using DMSO as a solvent showed that the ligand absorption profile was significantly disturbed after the coordination of the metal atom. In addition to a redshift of the salophen ligand absorption bands, mainly composed by π → π∗electronic transitions, additional bands of around 470 nm were observed, resulting in a partial metal-to-ligand charge transfer. Furthermore, a significant increment of its band intensities was observed, favoring a more intense absorption in a broader range of the visible spectrum, which is a desired characteristic for applications in the field of organic electronics. This finding is related to an increment of the planarity and consequent electron delocalization of the macrocycle in the complex, which was estimated by the calculation of the current strengths at the PBE0/cc-pVTZ (Dyall.v3z for Ni(II)) level.
topic Salophen
Nickel complex
Photoluminescence
TD-DFT
NTO
Magnetically induced rings
url http://www.sciencedirect.com/science/article/pii/S209012321730108X
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