Hybrid material by anchoring a ruthenium(II) imine complex to SiO2: preparation, characterization and DFT studies

G. Eliad Benitez-Medina; Raúl Flores; Luis Vargas; Fernando Cuenú; Pankaj Sharma; Miguel Castro; Alfonso Ramírez

doi:10.1039/D0RA09282G

Hybrid material by anchoring a ruthenium(ii) imine complex to SiO₂: preparation, characterization and DFT studies†‡

G. Eliad Benitez-Medina,

§*^a Raúl Flores,

§^b Luis Vargas,^a Fernando Cuenú,^c Pankaj Sharma,

^d Miguel Castro

*^b and Alfonso Ramírez

*^a

Author affiliations

* Corresponding authors

^a Grupo de Investigación Catálisis, Universidad del Cauca, Calle 5 No. 4-70, Popayán, Colombia
E-mail: gerelid@hotmail.com, aramirez@unicauca.edu.co

^b Departamento de Física y Química Teórica, DEPg, Facultad de Química, Universidad Nacional Autónoma de México, Ciudad de México, México
E-mail: miguel.castro.m@gmail.com

^c Grupo Química de Compuestos Organometálicos y Catálisis, Universidad del Quindío, Armenia, Colombia

^d Instituto de Química, Universidad Nacional Autónoma de México, Ciudad Universitaria, Circuito Exterior, Coyoacán 04510, Ciudad de México, México

Abstract

Ruthenium–silica hybrid material (RuCl₂(PR₃)₂-2-PyCH-AMPTSi/SiO₂) was prepared and characterized by various spectroscopic techniques. A deconvolution procedure was applied to the spectroscopic data to deconstruct the overlapped bands. A density functional theoretical approach was applied to get insights into the electronic structure of the ruthenium coordination site and the functional RI-PBE-D3/Def2TZVP basis set was used for the optimization. Relativistic effects were considered using the zero-order regular approximation (ZORA). The anchoring process, evinced for each step of the synthesis of the hybrid material, was tracked by FT-IR analyses. The transitions observed in the FT-IR spectra were verified by DFT analyses, which agree with the experimental data. In the DRS-UV-Vis spectra, three main bands were detected by the deconvolution procedure that correspond to the charge transfer transitions, with the main contributions from ruthenium-chlorine and imine–pyridine fragments. TD-DFT results reveal that ruthenium-chlorine antibonding orbitals act as main charge donors, while pyridine–imine is the main charge acceptor.

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Article information

DOI: https://doi.org/10.1039/D0RA09282G
Article type: Paper
Submitted: 31 Oct 2020
Accepted: 23 Jan 2021
First published: 03 Feb 2021
This article is Open Access

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RSC Adv., 2021,11, 6221-6233

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Hybrid material by anchoring a ruthenium(II) imine complex to SiO₂: preparation, characterization and DFT studies

G. E. Benitez-Medina, R. Flores, L. Vargas, F. Cuenú, P. Sharma, M. Castro and A. Ramírez, RSC Adv., 2021, 11, 6221 DOI: 10.1039/D0RA09282G

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