Please use this identifier to cite or link to this item: http://dspace.iitrpr.ac.in:8080/xmlui/handle/123456789/391
Title: Theoretical and experimental studies of phenol oxidation by ruthenium complex with N,N,N-tris(benzimidazol-2yl-methyl) amine
Authors: Hernandez, J.G.
Silva, A.R.
Thangarasu, P.
Najera, R.H.
Moreno, A.D.
Ledesma, M.T.O.
Cruz-Borbolla, J.
Singh, N.
Keywords: Benzoquinone formation
DFT
TD-DFT
Fukui indexes
Phenol oxidation
Ruthenium complex
Issue Date: 17-Nov-2016
Abstract: The ruthenium complex with (N,N,N-tris (benzimidazol-2yl-methyl)amine, L1 ) was prepared, and characterized. Fukui data were used to localize the reactive sites on the ligand. The structural and electronic properties of the complex were analyzed by DFT in different oxidation states in order to evaluate its oxidant properties for phenol oxidation. The results show that the hard Ru(IV) cation bonds preferentially with a hard base (Namine = amine nitrogen, or axial chloride ion), and soft Ru(II) with a soft base (Nbzim = benzimidazole nitrogen or axial triphenyl phosphine). Furthermore, the Jahn-Teller effect causes an elongation of the axial bond in the octahedral structure. The bonding nature and the orbital contribution to the electronic transitions of the complex were studied. The experimental UV-visible bands were interpreted by using TD-DFT studies. The complex oxidizes phenol to benzoquinone in the presence of H2O2 and the intermediate was detected by HPLC and 13C NMR. A possible mechanism and rate law are proposed for the oxidation. The adduct formation of phenol with [Ru(O)L1 ] 2+ or [Ru(OH)L1 ] + is theoretically analyzed to show that [Ru(OH)L1 -OPh]+ could produce the phenol radical.
URI: http://localhost:8080/xmlui/handle/123456789/391
Appears in Collections:Year-2015

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